This document provides information on various networking products from Korenix for industrial applications. It includes switches, wireless access points, media converters, and a network management system. The products highlighted have features like robust housing, long distance connectivity, fiber support, Power over Ethernet, and reliability in harsh environments.
The document summarizes the results of stress tests conducted by Croatian Academic and Research Network (CARNet) on various enterprise Wi-Fi access points. A total of 6 vendors participated in the tests, bringing their best AP models to a classroom test environment. A mix of 60 client devices were used to test the APs under increasing loads of 13, 23, 36, and 60 clients, as well as with 36 clients distributed across an arc. Test metrics included throughput and number of failed connections. Ruckus APs consistently achieved the highest throughput scores across all tests, with their R500 and R700 models ranking first or second in each category.
Cisco ASA 5545 delivers superior performance with up to 3 Gbps stateful inspection throughput, 2500 IPsec VPN peers, 750,000 concurrent connections and 1 expansion slot makes it ideally suited for the mid-size, large-size enterprises, internet edge deployments or even data center while delivering enterprise-strength security.
Доклад с мероприятия "Highload++ 2015", проходившего 02 и 03 ноября 2015 года.
Докладчики:
Игорь Мызгин
Станислав Осипов
Доклад посвящен многовекторной работе по достижению uptime 100%.
PLNOG 7: Piotr Szolkowski - Ethernet Mobile Backhaul SolutionPROIDEA
This presentation discusses Ethernet mobile backhaul solutions from Extreme Networks. It notes that mobile device usage is growing rapidly, driven by smartphones, and backhaul networks must support higher data rates to accommodate more users and faster wireless technologies like 4G LTE. Extreme's E4G product line provides carrier-grade Ethernet switches for mobile backhaul, supporting high-capacity, low-latency switching with synchronization capabilities required for mobile networks. The E4G switches integrate timing, resiliency, and operations features to meet the demands of modern 4G and future wireless infrastructure.
The document summarizes a presentation on vulnerabilities found in SCADA systems between 2009-2013. It analyzed vulnerabilities by component, with the majority (66%) found in communication components like Modbus and DNP3 protocols. Examples of vulnerabilities are described for several devices. Real-world issues with SCADA systems are discussed like lack of authentication and patching. Recommendations are provided like auditing SCADA networks, implementing secure protocols and password policies, and keeping systems updated.
Cisco ASA 5515-X supports Active/Active and Acitve/standby failover to enable the firewall redundancy. It delivers up to 1.2 Gbps stateful inspection throughput, 250 IPsec VPN peers, 250,000 concurrent connections and 1 expansion slot, which makes it ideally suited for the small, mid-size enterprises or branch offices.
Principals of Low Resistance Testing Webinar with MeggerTranscat
During this webinar you will learn the following:
• What is considered a Low Resistance Test?
• When to measure Low Resistance
• Why measure Low Resistance?
• Benefits of Low Resistance Testing
• DLRO2 - Features and Key Characteristics
Moxa products are specifically designed for substation transmission and distribution systems. Moxa’s solutions include the advanced technologies that are fueling the power revolution. For example, PRP/HSR for seamless redundancy, SNMP/MMS management for power SCADA integrated network monitoring, IEEE 1613 and IEC 61850 certifications for substation applications, and IEEE 1588 compliance for precision time synchronization are key features that upgrade large-scale electric power networks to the next level of reliability and efficiency. All of Moxa’s products are toughened to overcome harsh environments, ensuring consistent operations even in the most demanding conditions. Tap into Moxa’s expertise in communication and computing to easily build an efficient and effective power grid.
The document summarizes the results of stress tests conducted by Croatian Academic and Research Network (CARNet) on various enterprise Wi-Fi access points. A total of 6 vendors participated in the tests, bringing their best AP models to a classroom test environment. A mix of 60 client devices were used to test the APs under increasing loads of 13, 23, 36, and 60 clients, as well as with 36 clients distributed across an arc. Test metrics included throughput and number of failed connections. Ruckus APs consistently achieved the highest throughput scores across all tests, with their R500 and R700 models ranking first or second in each category.
Cisco ASA 5545 delivers superior performance with up to 3 Gbps stateful inspection throughput, 2500 IPsec VPN peers, 750,000 concurrent connections and 1 expansion slot makes it ideally suited for the mid-size, large-size enterprises, internet edge deployments or even data center while delivering enterprise-strength security.
Доклад с мероприятия "Highload++ 2015", проходившего 02 и 03 ноября 2015 года.
Докладчики:
Игорь Мызгин
Станислав Осипов
Доклад посвящен многовекторной работе по достижению uptime 100%.
PLNOG 7: Piotr Szolkowski - Ethernet Mobile Backhaul SolutionPROIDEA
This presentation discusses Ethernet mobile backhaul solutions from Extreme Networks. It notes that mobile device usage is growing rapidly, driven by smartphones, and backhaul networks must support higher data rates to accommodate more users and faster wireless technologies like 4G LTE. Extreme's E4G product line provides carrier-grade Ethernet switches for mobile backhaul, supporting high-capacity, low-latency switching with synchronization capabilities required for mobile networks. The E4G switches integrate timing, resiliency, and operations features to meet the demands of modern 4G and future wireless infrastructure.
The document summarizes a presentation on vulnerabilities found in SCADA systems between 2009-2013. It analyzed vulnerabilities by component, with the majority (66%) found in communication components like Modbus and DNP3 protocols. Examples of vulnerabilities are described for several devices. Real-world issues with SCADA systems are discussed like lack of authentication and patching. Recommendations are provided like auditing SCADA networks, implementing secure protocols and password policies, and keeping systems updated.
Cisco ASA 5515-X supports Active/Active and Acitve/standby failover to enable the firewall redundancy. It delivers up to 1.2 Gbps stateful inspection throughput, 250 IPsec VPN peers, 250,000 concurrent connections and 1 expansion slot, which makes it ideally suited for the small, mid-size enterprises or branch offices.
Principals of Low Resistance Testing Webinar with MeggerTranscat
During this webinar you will learn the following:
• What is considered a Low Resistance Test?
• When to measure Low Resistance
• Why measure Low Resistance?
• Benefits of Low Resistance Testing
• DLRO2 - Features and Key Characteristics
Moxa products are specifically designed for substation transmission and distribution systems. Moxa’s solutions include the advanced technologies that are fueling the power revolution. For example, PRP/HSR for seamless redundancy, SNMP/MMS management for power SCADA integrated network monitoring, IEEE 1613 and IEC 61850 certifications for substation applications, and IEEE 1588 compliance for precision time synchronization are key features that upgrade large-scale electric power networks to the next level of reliability and efficiency. All of Moxa’s products are toughened to overcome harsh environments, ensuring consistent operations even in the most demanding conditions. Tap into Moxa’s expertise in communication and computing to easily build an efficient and effective power grid.
LayerZero Designs Best-In-Class Power Reliability Solutions, including Static Transfer Switches, Power Distribution Units, and Power Panels.
Designed with an emphasis on high reliability, operator safety, open connectivity, and power quality monitoring - LayerZero products are the most technologically advanced power quality solutions on the planet.
Pinpoint the leading causes of downtime with LinkIQ Cable and Network TesterTranscat
The network is down and you’ll likely have to take it apart, only to find out that the source of the problem is a cabling issue. Since 40% of downtime is caused by issues such as bad connectors, broken cables, and excessive cable length, this new tester is a simple way to quickly identify the source of network downtime and quickly get your systems up and running.
Motorola solutions ap621 access point installation guide (part no. 72 e 15545...Advantec Distribution
This document provides installation instructions for the AP-621 Series Access Point. It describes how to wall mount, ceiling mount, or mount above the ceiling the access point. It also discusses antenna options, using a power injector for PoE, and LED indicators. Proper placement of the access point is emphasized to maximize coverage while avoiding interference.
The document outlines the topology and objectives for the ICND2 certification course. It includes diagrams of network topologies for different labs covering topics such as switched networks, routing protocols, ACLs, NAT, IPv6, Frame Relay WANs, and objectives for implementing and troubleshooting the various technologies. Lab addresses and subnets are defined for the different network devices in each topology.
This document discusses troubleshooting switched networks. It provides general troubleshooting suggestions such as becoming familiar with normal switch operation and having accurate network maps. It also covers troubleshooting specific issues like port connectivity, VLANs, trunks, VTP, and Spanning Tree Protocol. The summary at the end emphasizes that understanding normal network operation is key to troubleshooting and that common issues involve hardware, port configurations, VLAN mismatches, VTP configurations, and detecting and resolving loops in the Spanning Tree.
This document outlines the Interconnecting Cisco Networking Devices Part 2 (ICND2) course. The course goal is to teach students to install, operate, and troubleshoot a medium-sized network, including connecting to a WAN and implementing network security. The course builds upon skills learned in ICND1, such as OSI model and TCP/IP fundamentals. Over 5 days, topics include routing protocols, WAN connectivity, network services, and network management.
IRJET- Iot Based Underground Cable Line Fault DetectionIRJET Journal
This document describes an IoT-based system for detecting and locating faults in underground cable lines. The system uses a potential divider network laid across underground cables to detect faults. When a fault occurs, it generates a specific voltage that is sensed by a microcontroller. The location of the fault is determined by the voltage and corresponding distance in the resistor network. The microcontroller displays fault data on an LCD and transfers it online using ThingSpeak. This allows authorities to monitor cables and locate faults remotely via the internet. The system aims to quickly and easily detect fault locations without having to manually inspect the entire underground line.
Working with the Mainstay team, the Cisco IOT Manufacturing Marketing team combined research from manufacturing trade associations, management consulting research and an internal benchmarking project to create an Executive Briefing Presentation that would educate CxOs on the opportunities IOT can provide. This content was also repurposed to create a manufacturing IOT whitepaper to provide an asset to entice prospective customers to consider Cisco’s IOT offerings.
The LayerZero Power Systems Series 70: eRDP is a web-enabled Remote Distribution Panel. Designed to maximize operator safety, the eRDP contains no exposed live parts. Brochure contains product overview, product information, and technical specifications.
This chapter discusses several switching features for campus networks, including discovery protocols like LLDP, the neighbor discovery protocol. It covers the unidirectional link detection protocol UDLD, power over Ethernet (PoE) standards and components, and switch resource management using SDM templates.
IRJET- A Review Paper on Development of General Purpose Controller BoardIRJET Journal
This document provides a review of the development of a general purpose controller board. It describes the design and implementation of the controller board, which includes a microcontroller, analog sensors, communication capabilities, and a display. The controller board allows different applications by enabling communication between the microcontroller and connected devices. It provides a portable system for controlling, displaying, and manipulating inputs. The availability of various peripherals reduces complexity and cost. The controller board is programmed to perform tasks by running a set of instructions coded in the microcontroller. It provides a platform for real-time monitoring systems using sensors like a temperature sensor.
This document describes an FPGA CEP (complex event processing) appliance that can analyze streaming data and events in real-time with ultra-low latency. The appliance provides sub-microsecond latency, high throughput of over 1 million events per second, and low power consumption. It is useful for applications that require fast real-time decision making based on relationships between different data streams, such as high-frequency trading, network monitoring, and sensor data analysis. The appliance achieves its performance through the parallelism and lack of overhead provided by implementing the processing pipeline directly in an FPGA.
Opto 22 design new products for the long term, with features you’ll need tomorrow and concern for what you’re using today.
Opto 22 manufactures reliable industrial controllers, I/O, and software for automation, remote monitoring, data acquisition, and industrial Internet of Things (IIoT) applications.
Opto 22 manufactures reliable industrial controllers and I/O for automation and IIoT applications.
S V Controls is proud to say that we are among the top suppliers for the worlds largest vaccine manufacturing company. We supply them our recorders, controllers and thyristors.
Compromising Industrial Facilities From 40 Miles AwayEnergySec
Presented by: Lucas Apa and Carlos Mario Penagos, IOActive
Abstract: The evolution of wireless technologies has allowed industrial automation and control systems (IACS) to become strategic assets for companies that rely on processing plants and facilities. When sensors and transmitters are attacked, remote sensor measurements on which critical decisions are made might be modified, this could lead to unexpected, harmful, and dangerous consequences.
This presentation demonstrates attacks that exploit key distribution vulnerabilities we recently discovered in every wireless device made by three leading industrial wireless automation solution providers. We will review the most commonly implemented key distribution schemes, their weaknesses, and how vendors can more effectively align their designs with key distribution solutions.
You're not in kansas anymore - the strange physical world of industrial ether...Mike Nager
Industrial Internet of Things -- Physical Layer Design Considerations from 2014 Annual Conference for Network Professionals. RJ45 and other data connector options.
tado° Makes Your Home Environment Smart with InfluxDBInfluxData
Michal Knizek, Head of Research and Development at tado° GmbH, will share how they use InfluxData to gather data collected from their Smart Thermostat to help turn any home thermostat into a smart device. This device uses a variety of information collected (geo-location, temperature, user settings, current device functional state) to serve information to automatically control the environment temperature as well as letting users know when the device may need maintenance.
Underground Cable Fault Detection Using ArduinoIRJET Journal
This document describes a project to detect faults in underground cables using an Arduino board. The system works by measuring the resistance at different points along the cable run, which will change if there is a fault. It uses a series of resistors to represent the cable length and can detect three types of faults - short circuits, open circuits, and earth faults. When a fault is detected, the Arduino triggers a buzzer and sends an alert to field workers via GSM. It displays the fault location on an LCD screen in kilometers. The document includes block diagrams of the system components and simulations of it detecting errors at different cable distances.
Zyxel Ethernet Switch roadmap for 2006 cebit trainingLawrenceMutinda1
The document summarizes ZyXEL's Ethernet switch roadmap for 2006. It discusses trends in the Ethernet switch market, including growth of Gigabit and Power-over-Ethernet switches. ZyXEL's roadmap includes new unmanaged and managed switches, with models offering features like PoE and modular switches. The roadmap also addresses compliance with RoHS regulations and introducing a new product identity. ZyXEL's network management software will be updated to support more devices. A new modular switch, the MS-7206, is highlighted as providing high performance and redundancy for core switching.
Substation Monitoring and Control Based on Microcontroller Using IoTIRJET Journal
This document describes a system for substation monitoring and control using an IoT approach. Sensors are used to measure voltage, current, and temperature. An Arduino microcontroller collects data from the sensors and sends it over an IoT module to a remote computer. The system allows monitoring and control of substations in real-time from a remote location. Relays controlled by the microcontroller can automatically shut off power to parts of the substation if faults are detected. This provides improved safety and efficiency for substation management.
Long Range micro Drone with StabilizationIRJET Journal
This document discusses the construction and working of a long range micro drone with stabilization features. Some key points:
1. The drone is constructed using a local frame, Naze 32 flight controller, 6-channel receiver, 5000mAh battery, GPS and telemetry modules. It has a range of 3-4 km and can carry a 2kg payload.
2. Its working involves connecting components like motors and receiver to the flight controller. Firmware is loaded and settings configured. An app is used to control the drone and view telemetry data via the mobile phone.
3. Advantages of the drone include maintaining safety, reducing costs, high quality aerial imaging, precision navigation using GPS, easy operation, security, minimizing
LayerZero Designs Best-In-Class Power Reliability Solutions, including Static Transfer Switches, Power Distribution Units, and Power Panels.
Designed with an emphasis on high reliability, operator safety, open connectivity, and power quality monitoring - LayerZero products are the most technologically advanced power quality solutions on the planet.
Pinpoint the leading causes of downtime with LinkIQ Cable and Network TesterTranscat
The network is down and you’ll likely have to take it apart, only to find out that the source of the problem is a cabling issue. Since 40% of downtime is caused by issues such as bad connectors, broken cables, and excessive cable length, this new tester is a simple way to quickly identify the source of network downtime and quickly get your systems up and running.
Motorola solutions ap621 access point installation guide (part no. 72 e 15545...Advantec Distribution
This document provides installation instructions for the AP-621 Series Access Point. It describes how to wall mount, ceiling mount, or mount above the ceiling the access point. It also discusses antenna options, using a power injector for PoE, and LED indicators. Proper placement of the access point is emphasized to maximize coverage while avoiding interference.
The document outlines the topology and objectives for the ICND2 certification course. It includes diagrams of network topologies for different labs covering topics such as switched networks, routing protocols, ACLs, NAT, IPv6, Frame Relay WANs, and objectives for implementing and troubleshooting the various technologies. Lab addresses and subnets are defined for the different network devices in each topology.
This document discusses troubleshooting switched networks. It provides general troubleshooting suggestions such as becoming familiar with normal switch operation and having accurate network maps. It also covers troubleshooting specific issues like port connectivity, VLANs, trunks, VTP, and Spanning Tree Protocol. The summary at the end emphasizes that understanding normal network operation is key to troubleshooting and that common issues involve hardware, port configurations, VLAN mismatches, VTP configurations, and detecting and resolving loops in the Spanning Tree.
This document outlines the Interconnecting Cisco Networking Devices Part 2 (ICND2) course. The course goal is to teach students to install, operate, and troubleshoot a medium-sized network, including connecting to a WAN and implementing network security. The course builds upon skills learned in ICND1, such as OSI model and TCP/IP fundamentals. Over 5 days, topics include routing protocols, WAN connectivity, network services, and network management.
IRJET- Iot Based Underground Cable Line Fault DetectionIRJET Journal
This document describes an IoT-based system for detecting and locating faults in underground cable lines. The system uses a potential divider network laid across underground cables to detect faults. When a fault occurs, it generates a specific voltage that is sensed by a microcontroller. The location of the fault is determined by the voltage and corresponding distance in the resistor network. The microcontroller displays fault data on an LCD and transfers it online using ThingSpeak. This allows authorities to monitor cables and locate faults remotely via the internet. The system aims to quickly and easily detect fault locations without having to manually inspect the entire underground line.
Working with the Mainstay team, the Cisco IOT Manufacturing Marketing team combined research from manufacturing trade associations, management consulting research and an internal benchmarking project to create an Executive Briefing Presentation that would educate CxOs on the opportunities IOT can provide. This content was also repurposed to create a manufacturing IOT whitepaper to provide an asset to entice prospective customers to consider Cisco’s IOT offerings.
The LayerZero Power Systems Series 70: eRDP is a web-enabled Remote Distribution Panel. Designed to maximize operator safety, the eRDP contains no exposed live parts. Brochure contains product overview, product information, and technical specifications.
This chapter discusses several switching features for campus networks, including discovery protocols like LLDP, the neighbor discovery protocol. It covers the unidirectional link detection protocol UDLD, power over Ethernet (PoE) standards and components, and switch resource management using SDM templates.
IRJET- A Review Paper on Development of General Purpose Controller BoardIRJET Journal
This document provides a review of the development of a general purpose controller board. It describes the design and implementation of the controller board, which includes a microcontroller, analog sensors, communication capabilities, and a display. The controller board allows different applications by enabling communication between the microcontroller and connected devices. It provides a portable system for controlling, displaying, and manipulating inputs. The availability of various peripherals reduces complexity and cost. The controller board is programmed to perform tasks by running a set of instructions coded in the microcontroller. It provides a platform for real-time monitoring systems using sensors like a temperature sensor.
This document describes an FPGA CEP (complex event processing) appliance that can analyze streaming data and events in real-time with ultra-low latency. The appliance provides sub-microsecond latency, high throughput of over 1 million events per second, and low power consumption. It is useful for applications that require fast real-time decision making based on relationships between different data streams, such as high-frequency trading, network monitoring, and sensor data analysis. The appliance achieves its performance through the parallelism and lack of overhead provided by implementing the processing pipeline directly in an FPGA.
Opto 22 design new products for the long term, with features you’ll need tomorrow and concern for what you’re using today.
Opto 22 manufactures reliable industrial controllers, I/O, and software for automation, remote monitoring, data acquisition, and industrial Internet of Things (IIoT) applications.
Opto 22 manufactures reliable industrial controllers and I/O for automation and IIoT applications.
S V Controls is proud to say that we are among the top suppliers for the worlds largest vaccine manufacturing company. We supply them our recorders, controllers and thyristors.
Compromising Industrial Facilities From 40 Miles AwayEnergySec
Presented by: Lucas Apa and Carlos Mario Penagos, IOActive
Abstract: The evolution of wireless technologies has allowed industrial automation and control systems (IACS) to become strategic assets for companies that rely on processing plants and facilities. When sensors and transmitters are attacked, remote sensor measurements on which critical decisions are made might be modified, this could lead to unexpected, harmful, and dangerous consequences.
This presentation demonstrates attacks that exploit key distribution vulnerabilities we recently discovered in every wireless device made by three leading industrial wireless automation solution providers. We will review the most commonly implemented key distribution schemes, their weaknesses, and how vendors can more effectively align their designs with key distribution solutions.
You're not in kansas anymore - the strange physical world of industrial ether...Mike Nager
Industrial Internet of Things -- Physical Layer Design Considerations from 2014 Annual Conference for Network Professionals. RJ45 and other data connector options.
tado° Makes Your Home Environment Smart with InfluxDBInfluxData
Michal Knizek, Head of Research and Development at tado° GmbH, will share how they use InfluxData to gather data collected from their Smart Thermostat to help turn any home thermostat into a smart device. This device uses a variety of information collected (geo-location, temperature, user settings, current device functional state) to serve information to automatically control the environment temperature as well as letting users know when the device may need maintenance.
Underground Cable Fault Detection Using ArduinoIRJET Journal
This document describes a project to detect faults in underground cables using an Arduino board. The system works by measuring the resistance at different points along the cable run, which will change if there is a fault. It uses a series of resistors to represent the cable length and can detect three types of faults - short circuits, open circuits, and earth faults. When a fault is detected, the Arduino triggers a buzzer and sends an alert to field workers via GSM. It displays the fault location on an LCD screen in kilometers. The document includes block diagrams of the system components and simulations of it detecting errors at different cable distances.
Zyxel Ethernet Switch roadmap for 2006 cebit trainingLawrenceMutinda1
The document summarizes ZyXEL's Ethernet switch roadmap for 2006. It discusses trends in the Ethernet switch market, including growth of Gigabit and Power-over-Ethernet switches. ZyXEL's roadmap includes new unmanaged and managed switches, with models offering features like PoE and modular switches. The roadmap also addresses compliance with RoHS regulations and introducing a new product identity. ZyXEL's network management software will be updated to support more devices. A new modular switch, the MS-7206, is highlighted as providing high performance and redundancy for core switching.
Substation Monitoring and Control Based on Microcontroller Using IoTIRJET Journal
This document describes a system for substation monitoring and control using an IoT approach. Sensors are used to measure voltage, current, and temperature. An Arduino microcontroller collects data from the sensors and sends it over an IoT module to a remote computer. The system allows monitoring and control of substations in real-time from a remote location. Relays controlled by the microcontroller can automatically shut off power to parts of the substation if faults are detected. This provides improved safety and efficiency for substation management.
Long Range micro Drone with StabilizationIRJET Journal
This document discusses the construction and working of a long range micro drone with stabilization features. Some key points:
1. The drone is constructed using a local frame, Naze 32 flight controller, 6-channel receiver, 5000mAh battery, GPS and telemetry modules. It has a range of 3-4 km and can carry a 2kg payload.
2. Its working involves connecting components like motors and receiver to the flight controller. Firmware is loaded and settings configured. An app is used to control the drone and view telemetry data via the mobile phone.
3. Advantages of the drone include maintaining safety, reducing costs, high quality aerial imaging, precision navigation using GPS, easy operation, security, minimizing
Packet processing in the fast path involves looking up bit patterns and deciding on an actions at line rate. The complexity of these functions at Line Rate, have been traditionally handled by ASICs and NPUs. However with the availability of faster and cheaper CPUs and hardware/software accelerations, it is possible to move these functions onto commodity hardware. This tutorial will talk about the various building blocks available to speed up packet processing both hardware based e.g. SR-IOV, RDT, QAT, VMDq, VTD and software based e.g. DPDK, Fd.io/VPP, OVS etc and give hands on lab experience on DPDK and fd.io fast path look up with following sessions. 1: Introduction to Building blocks: Sujata Tibrewala
This document summarizes the network configuration of the Second Hospital of Traditional Chinese Medicine in Luoyang. It includes the contact information, equipment list, core network topology diagram with IP addresses, remote management methods of network devices, important VRRP and multi-instance STP configurations, as well as IP address and port planning tables.
FEATURE and BENEFITS:
Hardware Architecture Providing
High Throughput Performance
and Repeatable Results /
Accuracy
Interface - 10/100/1000, 10GbE,
40GbE Copper or Fiber
Supports UDP, TCP, MPLS,
VLAN, ESP, LPD & Encrypted
Packets
Supports multiple links and
filtering of packets
Validate and Optimize your
Network before Deployment to
avoid Costly Application issues
Easy to use - Command Line
Interface with Scripting Support
or GUI Interface
Bandwidth - 300bps - 40GbE in
1bps increments
Delay - 0 ms to 10 sec. in
1ms increments, settings for
Constant, Uniform and Normal
Other Features - Real time traffic
graph and Network Statistics,
output reports
√ Approvals - UL, CSA, CE, FCC
and RoHS
2U Sturdy Rack Mount
Enclosure, 90-240VAC
The document describes a network security project for a large South Indian bank. The project aimed to implement network security across the bank's datacenter addressing various network segments. Key challenges included a lack of datacenter firewalls and proactive defense mechanisms. The solution implemented Cisco firewall, IDS, and security management technologies to logically segment the network and provide layered defenses, resulting in no security issues during the implementation period.
The LayerZero Power Systems Series 70 ePODs: Type-X Power Distribution Unit has a Transformer with the Finger Safe SafePanel™. Highly flexible with a variety of configuration options, ePODs: Type-X is designed to maximize operator safety.
Designed and quality built by LayerZero Power Systems in Aurora, Ohio USA.
Similar to Flying You From Wired To Wireless - Product Brochure 2013 (20)
Make The Impossible Possible - Industrial PoE Brochure 2014Jiunn-Jer Sun
This document provides specifications for the JetCon 1702 PoE switch, including:
- It has two RJ-45 ports that provide data and PoE power using either Alternative A or B wiring.
- It supports both IEEE 802.3af and 802.3at PoE standards, providing up to 15W or 30W of power per port respectively.
- Additional features include overcurrent, overvoltage, and overtemperature protection for the PoE ports.
Transformation From Today To Tomorrow - Market and Product Strategy 2018Jiunn-Jer Sun
This document outlines a strategy for transforming industrial communication networks from today to the future. It analyzes current solutions and identifies trends impacting networks, including cloud connectivity, network security, and cloud networking. The transformation roadmap involves three phases over the next 5 years: 1) focusing on cloud/security, 2) convergence and scalability, and 3) network virtualization and agility. The goal is for networks to become more flexible, modular, and integrated through both physical and virtual components using technologies like TSN, 5G, wireless, and NFV.
Market Trend And Korenix IIoT Vision - 2018Jiunn-Jer Sun
This document discusses Korenix's vision for becoming an IIoT player by leveraging trends in cloud connectivity, cybersecurity, and the gap between IT and OT networks. It outlines Korenix's opportunities in advanced security features, edge devices, and cloud solutions. The document proposes a roadmap over 3 years to build out Korenix's next generation product family, refine security capabilities, achieve key certifications, develop cloud connectivity and networking solutions, and market Korenix as a total IIoT solution provider through new product pilots and ongoing development.
Industrial Wireless for Transportation - Korenix Wireless Solution 2016Jiunn-Jer Sun
Industrial Wireless Solution For Transportation
- Korenix provides wireless solutions for various transportation applications including railway, heavy vehicles, and vehicles using their JetWave product families.
- The solutions offer full IP communication, low power consumption, ruggedized devices, high performance, and different classes of passenger WiFi services.
- Example devices include the JetWave 3000 series for rail and heavy vehicles and JetWave 2000 series for vehicles, offering features like WiFi, cellular connectivity, switching, routing and traffic shaping.
Secure Reliable Quality Networking Solutions for Railway 2019Jiunn-Jer Sun
This document discusses Korenix's industrial data communication solutions for railways. It provides an overview of Korenix as a company, their product lines, and experience with various railway projects. Specific examples are given of passenger WiFi projects in the UK and Australia where Korenix's industrial switches and access points provided reliable connectivity. Features are described like Power over Ethernet reliability, link reliability through redundant rings, and network separation capabilities. The document promotes Korenix's ability to provide full-range networking solutions and customize solutions for railway projects.
Effective Network Security Against Cyber Threats - Network Segmentation Techn...Jiunn-Jer Sun
Primary ports can access all other ports, community ports can communicate within their group and with primary ports, and isolated ports can only communicate with their primary port. Korenix's private VLAN technology separates devices within a VLAN group to achieve higher security than traditional VLANs. It establishes three types of VLANs - primary, community, and isolated - to finely separate devices and limit traffic paths according to device behavior. Configuring a private VLAN involves creating the VLAN, assigning secondaries to primaries, and assigning ports, providing easier management than traditional VLAN tables.
A More Reilable LAN by MSR Redundant Ring - Redundant Technology 2018Jiunn-Jer Sun
1) MSR (Multiple Super Ring) is Korenix's patented redundant ring technology that makes local area networks (LANs) more reliable. It automatically elects one switch as the Ring Manager (RM) while the others become backup RMs.
2) In the event of a link or device failure, the RM activates its backup path to allow traffic to resume while preparing for seamless restoration. If the RM fails, the next switch becomes the new RM to maintain ring control.
3) MSR provides fast failure recovery within 5ms to minimize packet loss, eliminates single points of failure by having backup RMs, and achieves seamless restoration within 0ms without disrupting traffic flow or causing topology
Outstanding In Redundancy And Security - Korenix Ethernet Switches Brochure ...Jiunn-Jer Sun
The document discusses Korenix managed Ethernet switches for industrial applications. It provides specifications for various switch models, including the number and type of ports, supported network redundancy and security features, management capabilities, environmental tolerances, and contact information. The switches provide multiple redundancy technologies to minimize downtime, including ring redundancy with 5ms failure recovery and seamless restoration. They also offer security features like VLAN protection, private VLANs, port security, and various access control lists.
Power Distribution Feeder Automation - Application Story 2012Jiunn-Jer Sun
Feeder automation systems in Taiwan monitor and control power distribution networks. Korenix's fiber Ethernet switches and redundant ring technology were used to implement the fiber network connecting feeder terminal units along the distribution system. This enabled failure detection, identification, recovery, and reporting to minimize error handling time and ensure continuous network service when failures occurred on the fiber links.
Ensuring Network Reliabilty And Quality For IP Surveillance 2012Jiunn-Jer Sun
Korenix patented MSR redundancy technology provides more reliable network redundancy for IP surveillance systems compared to other protocols like RSTP. MSR guarantees failure recovery within 5ms, has no packet loss or topology changes during restoration, and can scale to support 250 switches in a single ring. It ensures the highest quality and most reliable video transmission for IP surveillance networks.
Enhancing Network Quality for Video Transmission 2012Jiunn-Jer Sun
This document discusses the benefits of using multicast over unicast and broadcast for video transmission in IP surveillance networks. It explains that multicast allows an IP camera to transmit video to multiple clients simultaneously without overloading bandwidth or the camera itself. The document emphasizes that IGMP is needed to integrate multicast efficiently and that Korenix switches support optimized IGMP snooping and querying to provide high-quality, scalable video transmission across surveillance networks.
Beijer Korenix Connected - Beijer Sales Kit 2019Jiunn-Jer Sun
This document discusses various networking products from Korenix, including unmanaged switches, managed switches, media converters, wireless access points, and cellular routers. It provides information on selecting the appropriate product for different customer needs and applications, such as single machine networks, extensible machine networks, and building automation systems. It also highlights features of Korenix products like network redundancy, security, and real-time monitoring capabilities.
Defend Your DHCP Infrastructure Against Cyber Attacks - Network Security Feat...Jiunn-Jer Sun
This document discusses defending a DHCP infrastructure against cyber attacks. It describes how DHCP works to assign IP addresses via a client-server model. It then outlines common attacks like DHCP spoofing and starvation. It recommends deploying DHCP Snooping on switches to validate DHCP messages and filter invalid ones to prevent attacks and ensure correct network configuration.
Build A Solid Foundation For Industrial Network Security - Cybersecurity Webi...Jiunn-Jer Sun
Agenda
- The unknown truth of cyber threats
- The myths of network security
- Attack and defense analysis
- IEC 62443 standard and how it impacts on you
- IT vs. OT security and the golden rule of defense
- A foundation where technology meets humanity
Essential Protection for The Fundamental of IP Networking - Cybersecurity Tra...Jiunn-Jer Sun
Agenda
• Why IP address and MAC address
• How packets are delivered through the network
• The address resolution mechanism (ARP) and how it works
• Vulnerabilities and cyberattacks to ARP
• Defense by network security Dynamic ARP Inspection
• Korenix products with advanced cybersecurity features
Protect Your DHCP Infrastructure from Cyber Attacks - Cybersecurity Training ...Jiunn-Jer Sun
Agenda
• IEC 62443 IACS standard
• Scope and why
• DHCP protocol and how it works
• DHCP’s Vulnerabilities
• Types of Cyber Attacks to DHCP
• Defense by network security DHCP Snooping
• Korenix products with advanced security features
A Big Picture of IEC 62443 - Cybersecurity Webinar (2) 2020Jiunn-Jer Sun
• Why An Industrial Cybersecurity Standard
• What Is IEC 62443 About
• How It Impacts On You - The Security Lifecycle
• IEC 62443 Certificates
• Reference: Some Ongoing Projects
• Summary
Protect The Fundamental of IP Networking - Network Security Features 2019Jiunn-Jer Sun
The document discusses how IP addresses are resolved to MAC addresses through the Address Resolution Protocol (ARP) and how ARP spoofing attacks threaten industrial network security. It describes how ARP works and how attackers can spoof ARP responses to redirect network traffic. The document advocates for using Dynamic ARP Inspection on industrial Ethernet switches to validate IP-MAC bindings and prevent ARP spoofing attacks from occurring. Securing ARP is important for protecting the basic operations of industrial IP networking.
Levels Up Your Redundant Network By ERPS - Redundant Technology 2019Jiunn-Jer Sun
ERPS (Ethernet Ring Protection Switching) is an open standard for network redundancy in industrial applications. It utilizes ring topologies to provide fast recovery from link failures within 50ms while also allowing flexibility through coupling multiple independent rings. Version 2 of ERPS improves on version 1 by enabling various non-ring topologies without compromising recovery time and eliminating potential packet loss during network restoration. Korenix supports both ERPS versions as well as proprietary and other standards-based redundant solutions to meet different industrial networking needs.
Broadcast Storm - The Root Causes And The Solutions - Whitepaper 2012Jiunn-Jer Sun
This whitepaper discusses broadcast storms in industrial Ethernet networks that use redundant ring topologies. It reveals that broadcast storms occur due to loops in the network topology that are created during events like link restoration or network restarts. This overwhelms the network with broadcast traffic. The whitepaper then presents Korenix's comprehensive solution to prevent broadcast storms which includes technologies that prevent loops from forming, ensure resilience during ring manager failures, and provide protection beyond individual rings.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
Sudheer Mechineni, Head of Application Frameworks, Standard Chartered Bank
Discover how Standard Chartered Bank harnessed the power of Neo4j to transform complex data access challenges into a dynamic, scalable graph database solution. This keynote will cover their journey from initial adoption to deploying a fully automated, enterprise-grade causal cluster, highlighting key strategies for modelling organisational changes and ensuring robust disaster recovery. Learn how these innovations have not only enhanced Standard Chartered Bank’s data infrastructure but also positioned them as pioneers in the banking sector’s adoption of graph technology.
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
Unlocking Productivity: Leveraging the Potential of Copilot in Microsoft 365, a presentation by Christoforos Vlachos, Senior Solutions Manager – Modern Workplace, Uni Systems
Communications Mining Series - Zero to Hero - Session 1DianaGray10
This session provides introduction to UiPath Communication Mining, importance and platform overview. You will acquire a good understand of the phases in Communication Mining as we go over the platform with you. Topics covered:
• Communication Mining Overview
• Why is it important?
• How can it help today’s business and the benefits
• Phases in Communication Mining
• Demo on Platform overview
• Q/A
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/building-and-scaling-ai-applications-with-the-nx-ai-manager-a-presentation-from-network-optix/
Robin van Emden, Senior Director of Data Science at Network Optix, presents the “Building and Scaling AI Applications with the Nx AI Manager,” tutorial at the May 2024 Embedded Vision Summit.
In this presentation, van Emden covers the basics of scaling edge AI solutions using the Nx tool kit. He emphasizes the process of developing AI models and deploying them globally. He also showcases the conversion of AI models and the creation of effective edge AI pipelines, with a focus on pre-processing, model conversion, selecting the appropriate inference engine for the target hardware and post-processing.
van Emden shows how Nx can simplify the developer’s life and facilitate a rapid transition from concept to production-ready applications.He provides valuable insights into developing scalable and efficient edge AI solutions, with a strong focus on practical implementation.
TrustArc Webinar - 2024 Global Privacy SurveyTrustArc
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
Programming Foundation Models with DSPy - Meetup SlidesZilliz
Prompting language models is hard, while programming language models is easy. In this talk, I will discuss the state-of-the-art framework DSPy for programming foundation models with its powerful optimizers and runtime constraint system.
AI 101: An Introduction to the Basics and Impact of Artificial IntelligenceIndexBug
Imagine a world where machines not only perform tasks but also learn, adapt, and make decisions. This is the promise of Artificial Intelligence (AI), a technology that's not just enhancing our lives but revolutionizing entire industries.
Unlock the Future of Search with MongoDB Atlas_ Vector Search Unleashed.pdfMalak Abu Hammad
Discover how MongoDB Atlas and vector search technology can revolutionize your application's search capabilities. This comprehensive presentation covers:
* What is Vector Search?
* Importance and benefits of vector search
* Practical use cases across various industries
* Step-by-step implementation guide
* Live demos with code snippets
* Enhancing LLM capabilities with vector search
* Best practices and optimization strategies
Perfect for developers, AI enthusiasts, and tech leaders. Learn how to leverage MongoDB Atlas to deliver highly relevant, context-aware search results, transforming your data retrieval process. Stay ahead in tech innovation and maximize the potential of your applications.
#MongoDB #VectorSearch #AI #SemanticSearch #TechInnovation #DataScience #LLM #MachineLearning #SearchTechnology
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
Essentials of Automations: The Art of Triggers and Actions in FMESafe Software
In this second installment of our Essentials of Automations webinar series, we’ll explore the landscape of triggers and actions, guiding you through the nuances of authoring and adapting workspaces for seamless automations. Gain an understanding of the full spectrum of triggers and actions available in FME, empowering you to enhance your workspaces for efficient automation.
We’ll kick things off by showcasing the most commonly used event-based triggers, introducing you to various automation workflows like manual triggers, schedules, directory watchers, and more. Plus, see how these elements play out in real scenarios.
Whether you’re tweaking your current setup or building from the ground up, this session will arm you with the tools and insights needed to transform your FME usage into a powerhouse of productivity. Join us to discover effective strategies that simplify complex processes, enhancing your productivity and transforming your data management practices with FME. Let’s turn complexity into clarity and make your workspaces work wonders!
Dr. Sean Tan, Head of Data Science, Changi Airport Group
Discover how Changi Airport Group (CAG) leverages graph technologies and generative AI to revolutionize their search capabilities. This session delves into the unique search needs of CAG’s diverse passengers and customers, showcasing how graph data structures enhance the accuracy and relevance of AI-generated search results, mitigating the risk of “hallucinations” and improving the overall customer journey.
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!SOFTTECHHUB
As the digital landscape continually evolves, operating systems play a critical role in shaping user experiences and productivity. The launch of Nitrux Linux 3.5.0 marks a significant milestone, offering a robust alternative to traditional systems such as Windows 11. This article delves into the essence of Nitrux Linux 3.5.0, exploring its unique features, advantages, and how it stands as a compelling choice for both casual users and tech enthusiasts.
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!
Flying You From Wired To Wireless - Product Brochure 2013
1.
2.
3.
4.
5.
6. Railway
PSCADA
“ Finally I found a redundant ring
solution that solves the root cause
of broadcast storms.”
JetView Pro
Network Management System
ͻ ƵƚŽ ƚŽƉŽůŽŐLJ ŐĞŶĞƌĂƚŝŽŶ
ͻ DĂŶĂŐĞƐ ϯƌĚ ƉĂƌƚLJ ĚĞǀŝĐĞƐ
ͻ hƐĞƌ ĚĞĨŝŶĞĚ ĞǀĞŶƚͲĂĐƚŝŽŶ
ƌƵůĞƐ
JetNet 5012G
Industrial L2+ Managed Switch
ͻ ƌŽĂĚĐĂƐƚ ƐƚŽƌŵ ƉƌŽƚĞĐƚŝŽŶ
ͻ ,ŝŐŚ Z^dW ĐŽŵƉĂƚŝďŝůŝƚLJ
ͻ ĚǀĂŶĐĞĚ Ϯн ƐĞĐƵƌŝƚLJ
IPv6
Signaling
“ Its strong EMC level ensures a
reliable signaling data transmission.”
JetNet 5628G L2+ Managed Switch
ͻ ϯ ŵŽĚƵůĂƌ ƐůŽƚƐ͕ ƵƉ ƚŽ ϭϴнϰ' ĨŝďĞƌƐ
ͻ E ϱϬϭϮϭͲϰ D ƌĂƚĞĚ
ͻ ĂŶůĞƐƐ ͲϰϬΕϴϱo
KƉ͘ ƚĞŵƉĞƌĂƚƵƌĞ
JetCon 2301
Industrial Media Converter
ͻ E ϱϬϭϮϭͲϰ ĐŽŵƉůŝĂŶĐĞ
ͻ ϭϬΕϲϬs ĚƵĂů ƉŽǁĞƌ ŝŶƉƵƚ
ͻ ^ƚƌŽŶŐ D^ ƉƌŽƚĞĐƚŝŽŶ
IPv6
5 A Beijer Electronics Group Companywww.korenix.com
7. Railway
CCTV
Reliable PoE sourcing against
sudden power fluctuation and
long term vibration on the train.
JetNet 6810G-M12/RJ
Industrial 8+2G 802.3at PoE
Switch
ͻ Ϯϰ ;ϮϯΕϰϮ͘ϱͿ s ƉŽǁĞƌ ŝŶƉƵƚ
ͻ DϭϮͬZ: ƌƵŐŐĞĚ ĐŽŶŶĞĐƚŽƌƐ
ͻ ϭϮϬt WŽ ƉŽǁĞƌ ďƵĚŐĞƚ
JetNet 6710G-M12 (HVDC)
Industrial 8+2G 802.3at PoE
Switch
ͻ ϭϭϬ ;ϳϳΕϭϯϳͿ s ƉŽǁĞƌ ŝŶƉƵƚ
ͻ DϭϮ ƌƵŐŐĞĚ ĐŽŶŶĞĐƚŽƌƐ
ͻ ϭϮϬt WŽ ƉŽǁĞƌ ďƵĚŐĞƚ
PIS
“ There is no compromise
between fast roaming and high
performance.”
JetWave 2820
Dual RF Outdoor Wireless AP
ͻ ϴϬϮ͘ϭϭĂͬďͬŐͬŶ ĐŽŶĨŝŐƵƌĂďůĞ
ͻ ϮϬŵƐ ^ƵƉĞƌ ƌŽĂŵŝŶŐ͕ ϭϮϬDďƉƐ
ƚŚƌŽƵŐŚƉƵƚ Ăƚ ϭϮϬŬŵͬŚ
JetCon 3401G
Industrial Gigabit Media
Converter
ͻ ůĞdžŝďůĞ 'ŝŐĂďŝƚ ^W ĨŝďĞƌ
ͻ YŽ^ ƉƌĞĐĞĚĞŶĐĞ ƚƌĂŶƐŵŝƐƐŝŽŶ
ͻ ^ƚƌŽŶŐ D^ ŝŵŵƵŶŝƚLJ
IPv6
IPv6
6A Beijer Electronics Group Company www.korenix.com
8. Surveillance
Station
“ Fanless, up to 540W PoE output with
exception handling to environmental
variations. No wonder it’s called the
INDUSTRIAL POE KING. ”
JetNet 5310G
Industrial 8 + 2G PoE Switch
ͻ ϯϬt WŽ ƉĞƌ ƉŽƌƚ͕ ϴϬt ŝŶ ƚŽƚĂů
ͻ /W ĐĂŵĞƌĂ ŬĞĞƉ ĂůŝǀĞ ĐŚĞĐŬŝŶŐ
ͻ D ŝďĞƌ ƋƵĂůŝƚLJ ŵŽŶŝƚŽƌŝŶŐ
IPv6
Vehicle
“ One switch fulfills all the needs
of video transmission and power
delivery on the bus.”
JetBox 9560
Embedded PoE Routing
Computer
ͻ ϭϮΕϮϰs ƉŽǁĞƌ ŝŶƉƵƚ
ͻ '^Dͬ'WZ^ͬϯ'͕ 'W^ ĞdžƚĞŶƐŝŽŶ
ͻ sWE ƌĞŵŽƚĞ ĐŽŶƚƌŽů
JetNet 3810G
Industrial 8 + 2G PoE Switch
ͻ ϭϮΕϮϰs ƉŽǁĞƌ ŝŶƉƵƚ
ͻ ϴϬϮ͘ϯĂĨ ϰϴs WŽ ŽƵƚƉƵƚ
ͻ ĞͲŵĂƌŬ ƚLJƉĞ ĂƉƉƌŽǀĂů
JetNet 5728G-24P Industrial PoE King
ͻ ϮϰͲƉŽƌƚ ϯϬt WŽ͕ ŵĂdž ϱϰϬtΛϲϱo
ŝŶ ƚŽƚĂů
ͻ WŽ ĞŵĞƌŐĞŶĐLJ ŵĂŶĂŐĞŵĞŶƚ
ͻ ĚǀĂŶĐĞĚ ĂLJĞƌ Ϯн ƐĞĐƵƌŝƚLJ
IPv6
IPv6
7 A Beijer Electronics Group Companywww.korenix.com
9. Surveillance
City
“ It’s rare to find an outdoor wireless
AP that supports IGMP snooping for
quality multicasting.”
JetWave 2450
Outdoor 802.11b/g/n Wireless AP
ͻ /'DW ƐŶŽŽƉŝŶŐ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚ
ͻ tDD ǀŝĚĞŽ ƚƌĂŶƐŵŝƐƐŝŽŶ
ͻ hƉ ƚŽ ϭϱϬDďƉƐ ŶĞƚ ĚĂƚĂ ƌĂƚĞ
Center
Hardened rackmount switch with
strong expandability for future
increasing demands.
JetNet 6524G 24G Stackable L3 Switch
ͻ ^ƚĂĐŬĂďůĞ͕ ƵƉ ƚŽ ϭϵϮ ƉŽƌƚƐ͕ ϯϴϰ' ƚŚƌŽƵŐŚƉƵƚ
ͻ ,ŝŐŚ ƉĞƌĨŽƌŵĂŶĐĞ ƵŶŝͬŵƵůƚŝĐĂƐƚ ƌŽƵƚŝŶŐ
ͻ :ƵŵďŽ ĨƌĂŵĞ ĞŶŚĂŶĐĞƐ EsZ ƉĞƌĨŽƌŵĂŶĐĞ
JetNet 3008G
Industrial 8G Ethernet Switch
ͻ ϴ ƉŽƌƚ ĨƵůů ŐŝŐĂďŝƚ ƉůƵŐ ĂŶĚ ƉůĂLJ
ͻ ƌŽĂĚĐĂƐƚ ƐƚŽƌŵ ĨŝůƚĞƌŝŶŐ
ͻ YŽ^ ǀŝĚĞŽ ƚƌĂŶƐŵŝƐƐŝŽŶ
JetNet 5828G Modular L3 Switch
ͻ ϯ ŵŽĚƵůĞ ƐůŽƚƐ͕ ƵƉ ƚŽ ϮϮ ĨŝďĞƌ ůŝŶŬƐ
ͻ /'DW ĂŶĚ ϯ ƵŶŝͬŵƵůƚŝĐĂƐƚ ƌŽƵƚŝŶŐ
ͻ E ϱϬϭϮϭͲϰ D ƌĂƚĞĚ
8A Beijer Electronics Group Company www.korenix.com
10. Power
Generation
“ The switch’s three-fiber-port
design just perfectly fits into the
wind farm.”
JetView Pro
Network Management System
ͻ ƵƚŽ ƚŽƉŽůŽŐLJ ŐĞŶĞƌĂƚŝŽŶ
ͻ DĂŶĂŐĞƐ ϯƌĚ ƉĂƌƚLJ ĚĞǀŝĐĞƐ
ͻ hƐĞƌ ĚĞĨŝŶĞĚ ĞǀĞŶƚͲĂĐƚŝŽŶ
ƌƵůĞƐ
JetNet 4510
Industrial 7+3F Managed Switch
ͻ ϯ ϭϬϬDďƉƐ ^W ĨŝďĞƌƐ
ͻ ϱŵƐ ƌŝŶŐ ĨĂŝůƵƌĞ ƌĞĐŽǀĞƌLJ
ͻ ƌŽĂĚĐĂƐƚ ƐƚŽƌŵ ƉƌŽƚĞĐƚŝŽŶ
TD
Enabling FDIR functions on the
data network of Transmission,
Distribution, and Feeder
Automation.
JetNet 4508f
Industrial Managed Fiber Switch
ͻ EĞƚǁŽƌŬ ĨĂŝůƵƌĞ ĚĞƚĞĐƚŝŽŶ͕
ŝĚĞŶƚŝĨŝĐĂƚŝŽŶ ĂŶĚ ƌĞĐŽǀĞƌLJ
ͻ Žǁ ƉŽǁĞƌ ĐŽŶƐƵŵƉƚŝŽŶ
ͻ ͲϰϬΕϳϱo
ŽƉĞƌĂƚŝŶŐ ƚĞŵƉ͘
JetWave 2820
Dual RF Outdoor Wireless AP
ͻ tŝƌĞůĞƐƐ ĚĂŝƐLJͲĐŚĂŝŶ
ͻ DƵůƚŝƉůĞ ŚŽƉƉŝŶŐ ƵƉ ƚŽ ϭϮϬ
DďƉƐ Ăƚ ϭϬ ŚŽƉƐ
IPv6 IPv6
9 A Beijer Electronics Group Companywww.korenix.com
11. Transportation
Tunnel
“ I like its IP31 housing which
protects the system from the
heavy dust in the tunnel. ”
Highway
“ High performance, long distance.
Simply makes everything easy.”
JetWave 2610
Outdoor 802.11a Wireless AP
ͻ hƉ ƚŽ ϰϬŬŵ ƵůƚƌĂ ůŽŶŐ ĚŝƐƚĂŶĐĞ
ͻ DĂdž ϱϰDďƉƐ ĚĂƚĂ ƌĂƚĞ
ͻ Žǁ ŝŶƚĞƌĨĞƌĞŶĐĞ ϱ' ďĂŶĚ
JetNet 6059G
Industrial 9G Managed Switch
ͻ Ƶůů ŐŝŐĂďŝƚ ĨŽƌ ƐƵƌǀĞŝůůĂŶĐĞ
ͻ Ϯ' ĨŝďĞƌ dƌƵŶŬZŝŶŐ ďĂĐŬďŽŶĞ
ͻ D ĨŝďĞƌ ƋƵĂůŝƚLJ ŵŽŶŝƚŽƌŝŶŐ
JetNet 5010G
Industrial 7+3G Managed Switch
ͻ /Wϯϭ ĂůƵŵŝŶƵŵ ƉƌŽƚĞĐƚŝŽŶ
ͻ ϱŵƐ ƌŝŶŐ ĨĂŝůƵƌĞ ƌĞĐŽǀĞƌLJ
ͻ ED d^ ĐŽŵƉůŝĂŶĐĞ
JetBox 5300
Embedded Linux Computer
ͻ Ϯ E͕ ϰ ^ĞƌŝĂů͕ ϰ /͕ ϰ K
ͻ DŽĚďƵƐ ŐĂƚĞǁĂLJ
ͻ WƌŽŐƌĂŵŵĂďůĞ ĨŽƌ ƚƌĂĨĨŝĐ ĐŽŶƚƌŽů
IPv6
IPv6
10A Beijer Electronics Group Company www.korenix.com
12. Heavy Industry
Mining
Rugged communication computers
specifically designed for heavy
vehicles working in harsh
environments.
JetBox 8195
Industrial Communication
Computer
ͻ ϰ ǀĞŚŝĐůĞ ďŽŽƐƚ WŽ н Ϯ'ď
ͻ ŵŝŶŝW/ ĨŽƌ ǁŝƌĞůĞƐƐ ĞdžƚĞŶƐŝŽŶ
ͻ ^ĞƌŝĂů͕ s' ͕ ĂƵĚŝŽ͕ ƵƐď
JetBox 8152
Industrial Communication Computer
ͻ ZĞĚƵŶĚĂŶƚ ŽƉĞƌĂƚŝŶŐ ƐLJƐƚĞŵ
ͻ EďƵƐ
ͻ ƚŚĞƌŶĞƚ͕ KD͕ s' ͕ ĂƵĚŝŽ͕ ƵƐď
Oil and Gas
“ Its 3-configurable-RF design
is a flexible solution to various
conditions of field site wireless
deployment.”
JetWave 2830
Triple RF Outdoor Wireless AP
ͻ ϴϬϮ͘ϭϭĂ ůŽŶŐ ĚŝƐƚĂŶĐĞ ďĂĐŬŚĂƵů
ͻ ϴϬϮ͘ϭϭďͬŐ ůŽĐĂů ĐŽǀĞƌĂŐĞ
ͻ ϴϬϮ͘ϭϭŶ D/DK ϯϱϬDďƉƐ
ŚŝŐŚ ƐƉĞĞĚ
JetBox 5432-w
Embedded VPN Computer
ͻ sWE ƌŽƵƚŝŶŐ н ϰ E
ͻ ^ĞƌŝĂů ďƵĨĨĞƌŝŶŐ ŝŶ ĐĂƐĞ ŽĨ ůŝŶŬ ůŽƐƐ
ͻ DŽĚďƵƐ ŐĂƚĞǁĂLJ
IPv6
11 A Beijer Electronics Group Companywww.korenix.com
13. Automation
Factory
Not only fiber can extend Ethernet
over long distances, so can your
existing twisted pair cables.
Warehouse
“ Dual RF with four high performance
fiberglass antennas enhance the
wireless coverage and transmission
quality.”
JetWave 2720
Industrial Dual RF Wireless AP
ͻ ,ŝŐŚ ŐĂŝŶ ĨŝďĞƌŐůĂƐƐ ĂŶƚĞŶŶĂ
ͻ Ϯ 'ŝŐĂďŝƚ ƚŚĞƌŶĞƚ
ͻ tŝƌĞůĞƐƐ ƚŽ ǁŝƌĞ ŵĂdž ϯϱϬDďƉƐ
JetPort 5801
Wireless Serial Device Server
ͻ Z^ϮϯϮͬϰϮϮͬϰϴϱ ƚŽ ϴϬϮ͘ϭϭďͬŐ
ͻ ^ƵƉƉŽƌƚƐ ŚŝŐŚ ƐƉĞĞĚ ZĞĂů KD
ͻ ,ŝŐŚ ŐĂŝŶ ĨŝďĞƌŐůĂƐƐ ĂŶƚĞŶŶĂ
JetCon 2502
Industrial VDSL2 Ethernet
Extender
ͻ ƚŚĞƌŶĞƚ ŽǀĞƌ ĞdžŝƐƚŝŶŐ ĐŽƉƉĞƌ
ͻ džƚĞŶĚ ĚŝƐƚĂŶĐĞ ƵƉ ƚŽ ϭŬŵ
ͻ ϭ͘ϱs ,ŝWŽƚ ŝƐŽůĂƚŝŽŶ
JetNet 4518-w
Industrial 16+2F Managed Switch
ͻ ƌŽĂĚĐĂƐƚ ƐƚŽƌŵ ƉƌŽƚĞĐƚŝŽŶ
ͻ DŽĚďƵƐͬdW ŵĂŶĂŐĞĚ
ͻ ĚǀĂŶĐĞĚ Ϯн ^ĞĐƵƌŝƚLJ
IPv6
12A Beijer Electronics Group Company www.korenix.com
16. 15 A Beijer Electronics Group Companywww.korenix.com
Every switch other than the RM is Backup
RM. One of the backup RM will immediately
take over the role if the RM happens to fail.
No manual configuration is required.
Backup RMs All Standby
While RM is the only manager in the ring,
Korenix-patented RM Redundancy solves
the critical point problem and guarantees
the ring is always well-controlled.
RM Redundancy
Korenix-patented Seamless Restoration
introduces the most stable restoration
process to the world:
ͻ EŽ ƉĂĐŬĞƚ ůŽƐƐ
ͻ EŽ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ
ͻ EŽ ŝŶĨůƵĞŶĐĞ ƚŽ ƚŚĞ ŶĞƚǁŽƌŬ
JetView Pro and the RS LED (Ring Status)
help administrators and field engineers
to identify the type and location of a
failure, which quickens troubleshooting.
(*Advanced RS LED supported on some of the switches)
5 ms Failure Recovery
Ϭ ŵƐ ŝŶŬ ZĞƐƚŽƌĂƟŽŶ
ĂŝůƵƌĞ WŽƐŝƟŽŶŝŶŐ
ĂŝůƵƌĞ /ĚĞŶƟĮĐĂƟŽŶ
DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ
Beyond Fast Recovery
It’s reliable, stable, quality and broadcast-storm-free.
Seamless
Restoration
Packet loss Broadcast storm
JetView Pro points out the failure position
RS
RS
Failure position
link broken
RM failure
Backup RM
Backup RM
RM Backup RM
RS
RS
Error position
ring port
configuration error
Backup RM
Backup RM
17. 16A Beijer Electronics Group Company www.korenix.com
RM Redundancy is designed to solve the
single critical point problem of RM. A backup
RM activates immediately when a RM
ŵĂůĨƵŶĐƟŽŶ or failure is detected. The ring
is always under control by a well-functioning
RM, which solves one of the root causes of
broadcast storm.
2.Resilience
The best way to eliminate broadcast storm
is to prevent network looping. Network
looping happens with link restoration or
network restarts.
Patented Seamless Restoration prevents
network looping by a 0 ms restoration
procedure at the first moment when a link is
restored to a ring.
By enabling the unique feature of ŽŽƉ WƌŽƚĞĐƟŽŶ,
a switch becomes a Protector and starts to detect
if any loop is in the network. The connection
between the protector and the loop will be
disabled if a loop is found, which protects from ƌŝŶŐ
ƉŽƌƚ ĐŽŶŶĞĐƟŽŶ ĞƌƌŽƌ.
As shown in the diagram, a broadcast storm that
occurs in the left part of the network is blocked and
will not flow out to the right part. Korenix L2 switch
protects your network instead of a costly L3 switch.
ϭ͘WƌĞǀĞŶƟŽŶ
ϯ͘WƌŽƚĞĐƟŽŶ
Broadcast Storm: Why and When
Broadcast storm occurs to industrial Ethernet networks, especially a redundant ring, because of
the ring’s ůŽŽƉ ƚŽƉŽůŽŐLJ, which is the root cause of broadcast storm. Broadcast storm happens to a
ring when: (1) ZD ŵĂůĨƵŶĐƟŽŶƐ, (2) ůŝŶŬ ƌĞƐƚŽƌĂƟŽŶ, (3) ƌŝŶŐ ƉŽƌƚ ĐŽŶŶĞĐƟŽŶ ĞƌƌŽƌ, or (4) network
restarts.
No Broadcast Storm
The Root Causes and Korenix Solutions
We prevent the problem in advance.
Korenix Solves The Root Causes
18. 17 A Beijer Electronics Group Companywww.korenix.com
MultiRing
MultiRing
TrunkRing
Fully-fledged features of IPv6, including IPv6 SSH
SSL, Ping6, CLI/Telnet/Web management, neighbor
discovery, firmware upgrades. Dual stack design
allows the use of IPv4-IPv6 in mixed network
environments.
IPv6
Meets The Future
MultiRing provides the simplest way to connect
multiple rings together. TrunkRing combines port
trunk and MSR technologies, which doubles the
network bandwidth and the link redundancy.
DƵůƟZŝŶŐ͕ dƌƵŶŬZŝŶŐ
ůĞdžŝďůĞ ZŝŶŐ ĞƉůŽLJŵĞŶƚ
Very high pass ratio of IxANVL Conformance
Inter-Op test greatly reduces the problems and
efforts when Korenix switches are connected to 3rd
party switches in a project.
,ŝŐŚ Z^dW ŽŶĨŽƌŵĂŶĐĞ
KƵƚƐƚĂŶĚŝŶŐ ŽŵƉĂƟďŝůŝƚLJ
Simply enable the function and connect two rings
through multiple links in free style without complex
configurations such as master, slave, coupler port
and so on. The failover time is less than 50ms and
restoration time is 0.
ZĂƉŝĚ ƵĂů ,ŽŵŝŶŐ
ŽƵďůĞ͕ dƌŝƉůĞ͙ ZĞĚƵŶĚĂŶĐLJ
Rapid Dual Homing
Multiple redundancies in free style
RSTP
95%Pass Ratio
MSTP
97%Pass Ratio
19. Industrial Ethernet Switch
18A Beijer Electronics Group Company www.korenix.com
Simply divide a network into Primary VLAN,
Community VLAN and Isolated VLAN. The server can
talk to the PLCs and cameras, the PLCs can talk to the
server and with each other, while the cameras are
isolated and can only send images to the server.
Private VLAN
ĚǀĂŶĐĞĚ dƌĂĸĐ /ƐŽůĂƟŽŶ
Unlike some other switches, Korenix IGMP
implementation snoops IGMP messages only without
receiving multicast traffic. The CPU then has a clear
brain to ensure video multicasting quality, especially
in large surveillance systems.
KƉƟŵŝnjĞĚ /'DW
YƵĂůŝƚLJ sŝĚĞŽ DƵůƟĐĂƐƚ
In addition to DHCP option 82 server, JetNet supports
Port-Based DHCP allowing users to assign specific
IP by port without the need for an option 82 server.
A device will always get a fixed IP as long as it is
connected to the same port.
ĚǀĂŶĐĞĚ ,W ^ĞƌǀĞƌ
ƐƐŝŐŶƐ ŝdžĞĚ /W ďLJ WŽƌƚ
Centralize security control by managing the login
user name and password in the radius server
instead of saving the configuration in the switches
individually. Users should pass the authentication and
then login to the switch.
ZĂĚŝƵƐ ŽŐŝŶ
ĞŶƚƌĂůŝnjĞĚ ƵƚŚĞŶƟĐĂƟŽŶ
isolated VLANCommunity VLAN
Primary VLAN
Multicast VideosIGMP control messages
IP address 1Port 1
IP address 2Port 2
IP address 3Port 3
Port-based DHCP server or
DHCP server option 82
Username/password
Centralized
managementRadius server
login
Permit/
Deny
20. 19 A Beijer Electronics Group Companywww.korenix.com
DDM (Digital Diagnostic Monitoring) monitors SFP
parameter, such as optical output power, optical input
power, temperature in real-time for fast maintenance
and debugging without additional optical cable
analyzers.
D
ŝďĞƌ YƵĂůŝƚLJ DŽŶŝƚŽƌŝŶŐ
A 9KB jumbo frame is 6 times larger than a common
1518-byte Ethernet maximum transfer unit. It helps
to maximize NVR video storage performance in
surveillance applications.
Jumbo Frame
Maximum NVR Performance
Industrial engineers are able to include JetNet
switches and monitor the network status on their
SCADA or HMI systems through Modbus TCP without
the need of IT knowledge or an additional network
management system.
DŽĚďƵƐ dW DĂŶĂŐĞĚ
ĨŽƌ /ŶĚƵƐƚƌŝĂů /ŶƚĞŐƌĂƟŽŶ
The command line interface is friendly to the
advanced IT staffs and minimizes the learning curve
and maintenance efforts on JetNet switches.
/d ^ƚĂī ƌŝĞŶĚůLJ
Cisco-like CLI
9216 bytes
1518 1518 1518 1518 1518 1518
Monitor and control the network and the industrial
devices through one single management interface
SCADA
HMI
Modbus TCP
21. Industrial Ethernet Switch
20A Beijer Electronics Group Company www.korenix.com
Korenix L3 switches are featured with VRRP (Virtual Router Redundancy Protocol) and OSPF (Open
Shortest Path First) protocols. While VRRP allows the field devices to have redundant gateways to
the remotes, OSPF is powerful for creating fault tolerant networks. By connecting JetNet L3 switch to
OSPF core switches of dual-rings, the network system will automatically figure out the shortest path
between the field devices and the central office, and is able to recover from multiple link downs and
device failures. This is critical for large industrial network projects such as railway, oil field, electricity
and so on.
ĚǀĂŶĐĞĚ ϯ ZŽƵƟŶŐ ŶĂďůĞƐ ƵĂů ZŝŶŐ ZĞĚƵŶĚĂŶĐLJ
By setting gateways with virtual IP and priority,
different gateways can backup mutually. Users can
further assign the end devices to different gateways,
The traffic is bypassed and shared to different paths.
For example: separating traffic from process control
and video surveillance.
sZZW 't ZĞĚƵŶĚĂŶĐLJ
ĂŶĚ ŽĂĚ ^ŚĂƌŝŶŐ
22. 21 A Beijer Electronics Group Companywww.korenix.com
^ƚĂĐŬ ƵƉ ƚŽ ϯϴϰ' ĂƉĂĐŝƚLJ
Up to 8 switches can be put into a single stack and
be managed by a single IP address. The dual 10G
stacking interfaces can be connected into a redundant
ring ensuring a reliable, high performance stacking
backplane, which fits heavy loading video surveillance
applications in the central room.
Industrial 24-port Full Gigabit Stackable Layer 3 Switch
ͻ ^ƚĂĐŬĂďůĞ͕ ƵƉ ƚŽ ϴ ƵŶŝƚƐ ǁŝƚŚ ϭϵϮ ŐŝŐĂďŝƚ ƉŽƌƚƐ
ͻ tŝƌĞͲƐƉĞĞĚ ϯ ZŽƵƚŝŶŐ͕ ŵƵůƚŝĐĂƐƚ ƌŽƵƚŝŶŐ
ͻ sZZW ĨŽƌ ŐĂƚĞǁĂLJ ƌĞĚƵŶĚĂŶĐLJ
ͻ D^Z ƌĞĚƵŶĚĂŶƚ ƌŝŶŐ ŵĞŵďĞƌ ŵŽĚĞ
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ ϵ :ƵŵďŽ ƌĂŵĞ ĞŶŚĂŶĐĞƐ EsZ ƉĞƌĨŽƌŵĂŶĐĞ
:ĞƚEĞƚ ϲϱϮϰ' ^ĞƌŝĞƐ
Industrial 24+4G Modular Layer 3 Switch
ͻ ϯ ĞdžĐŚĂŶŐĞĂďůĞ ƐůŽƚƐ͕ ƵƉ ƚŽ Ϯϰ ϭϬͬϭϬϬdy Žƌ ϭϴ ϭϬϬy
ͻ ϰ ŽŶͲďŽĂƌĚ 'ŝŐĂďŝƚ ^W ĐŽŵďŽ ƉŽƌƚƐ
ͻ tŝƌĞͲƐƉĞĞĚ ϯ ZŽƵƚŝŶŐ͕ ŵƵůƚŝĐĂƐƚ ƌŽƵƚŝŶŐ
ͻ sZZW ĨŽƌ ŐĂƚĞǁĂLJ ƌĞĚƵŶĚĂŶĐLJ
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ Ύ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ Ύ
ͻ ϵ :ƵŵďŽ ƌĂŵĞ ĞŶŚĂŶĐĞƐ EsZ ƉĞƌĨŽƌŵĂŶĐĞ
ͻ EϱϬϭϮϭͲϰ D ƌĂƚĞĚ ĨŽƌ ƌĂŝůǁĂLJ ĂƉƉůŝĐĂƚŝŽŶƐ
ͻ ED Ͳd^Ϯ ƌĂƚĞĚ ĨŽƌ ƚƌĂĨĨŝĐ ĐŽŶƚƌŽů
* Coming soon
:ĞƚEĞƚ ϱϴϮϴ'
ϯϴϰ'
Module JNMS-8TX JNMS-2SFP/4MSC JNMS-2SFP/4SSC JNMS-4TX/4SFP
ϭϬͬϭϬϬdy 8 4
ϭϬϬy ;^WͿ 2 2
ϭϬϬy ;^Ϳ 4 (2km
multi-mode)
4 (30km
single-mode)
4
10G stacking interfaces connected
into a redundant ring at the rear
23. Industrial Ethernet Switch
22A Beijer Electronics Group Company www.korenix.com
:ĞƚEĞƚ ϲϱϮϰ'͕ :ĞƚEĞƚ ϲϱϮϰ'ͲϮϰ͕
:ĞƚEĞƚ ϲϱϮϰ'Ͳϰϴ
:ĞƚEĞƚ ϱϴϮϴ'
ϯ Ƶůů 'ŝŐĂ ^ƚĂĐŬĂďůĞ DĂŶĂŐĞĚ ϯ DŽĚƵůĂƌ 'ŝŐĂ DĂŶĂŐĞĚ
Interfaces
ϭϬͬϭϬϬdy WŽƌƚƐ max 24
ϭϬͬϭϬϬͬϭϬϬϬdy WŽƌƚƐ 24 (4 combo) 4 (combo)
Fiber Ports 4 x 1000 SFP ŵĂdž ϮϮ ;ϭϴ н ϰ'Ϳ
DI/DO (Dry Relay) /Console RS-232 2 x DI, 2 x DO, RS-232
DC Power Input
2 x 24VDC (6524G-DC24)
2 x 48VDC (6524G-DC48)
2 x 24/48 VDC (5828G)
2 x 80-370 VDC (5828G-2HDC)
AC Power Input 1 x 90-264 VAC (6524G)
1 x85-264 VAC (5828G)
2 x 85-264 VAC (5828G-2AC)
Hi-Pot AC 1.5KV
Features
MSR, MultiRing, TrunkRing, RDH MSR member භ
Broadcast Storm/ Loop Protection භΎ
ĂLJĞƌ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬϯͬϰ Ϳ භ භ
DHCP Server (Op82, Port-based) භ භ
JetView/ JetView Pro Managed භ භ
L3 Protocols
Layer 3 Routing
Static/Dynamic/VLAN Routing
RIP v1/v2, OSPF v1/v2
Static/Dynamic/VLAN Routing
RIP v1/v2, OSPF v1/v2
Multicast Routing IGMP, Mroute, DVMRP, PIM-DM/SM IGMP, Mroute, DVMRP, PIM-DM
VRRP Gateway Redundancy භ භ
SW/Protocol
IPv6 Management භΎ
RSTP/MSTP භ භ
QoS Traffic Priority 8 Queues 8 Queues
VLAN, Private VLAN, QinQ, GVRP භ භ
IGMP Query, Snooping, GMRP IGMP Query, Snooping , GMRP IGMP Query, Snooping , GMRP
LLDP Network Discovery භ භ
LACP/ Static Trunking භ භ
IEEE 1588 PTP භ
Jumbo frame 9.2 Kbytes 9.2 Kbytes
Port Mirror භ භ
DDM SFP Monitoring භ භ
802.1x, IP/Port Security, HTTPS, SSH භ භ
Centralized Password Authentication d ^н ͕ ZĂĚŝƵƐ Radius*
Modbus TCP Management භ
SNMP/RMON/Trap V1/V2c/V3 V1/V2c/V3
CLI/Web/Telnet භ භ
,tͬD
Housing Protection (IP) Metal Metal
Dimension (H x W x D mm) 44 x 438 x 237 44 x 431 x 375
Mounting Rackmount Rackmount
Operating Temperature
-10~55°C (6524G)
-40~65°C (6524G-DC, Fanless)
-40~85°C (Fanless)
MTBF (hrs) 445,000 310,000
ĞƌƟĮĐĂƚĞͬŽ
Regulatory Approval CE/FCC CE/FCC
RoHS/REACH භ භ
Vertical Market
Heavy Industry/EN50121-4 (EMC Rated)
NEMA TS2 (Rated)
* Coming soon
24. 23 A Beijer Electronics Group Companywww.korenix.com
Industrial 24+4G Modular Layer 2 Plus
Switch
ͻ ϯ ĞdžĐŚĂŶŐĞĂďůĞ ƐůŽƚƐ͕ ƵƉ ƚŽ Ϯϰ ϭϬͬϭϬϬdy Žƌ ϭϴ ϭϬϬy
ͻ ϰ ŽŶͲďŽĂƌĚ 'ŝŐĂďŝƚ ^W ĐŽŵďŽ ƉŽƌƚƐ
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ Ύ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ Ύ
ͻ ϵ :ƵŵďŽ ƌĂŵĞ ĞŶŚĂŶĐĞƐ EsZ ƉĞƌĨŽƌŵĂŶĐĞ
ͻ EϱϬϭϮϭͲϰ D ƌĂƚĞĚ ĨŽƌ ƌĂŝůǁĂLJ ĂƉƉůŝĐĂƚŝŽŶƐ
ͻ ED Ͳd^Ϯ ƌĂƚĞĚ ĨŽƌ ƚƌĂĨĨŝĐ ĐŽŶƚƌŽů
* Coming soon
:ĞƚEĞƚ ϱϲϮϴ'͕ ϱϲϮϴ'ͲZ
Industrial 24+4G Layer 2 Plus
Switch
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ Ύ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ Ύ
ͻ ϵ :ƵŵďŽ ƌĂŵĞ ĞŶŚĂŶĐĞƐ EsZ ƉĞƌĨŽƌŵĂŶĐĞ
:ĞƚEĞƚ ϱϰϮϴ' ^ĞƌŝĞƐ͕ ϱϰϮϴ'ͲϮyͲϮ'
RSTP D^Z ZŝŶŐ
Topology Any Ring
Algorithm Complex Simple
Failure Recovery Not deterministic ĞƚĞƌŵŝŶŝƐƚŝĐ ф ϱ ŵƐ
Restoration Topology change Seamless 0 ms
Scalability 20 in depth 250 in one ring
Module JNMS-8TX JNMS-2SFP/4MSC JNMS-2SFP/4SSC JNMS-4TX/4SFP
ϭϬͬϭϬϬdy 8 4
ϭϬϬy ;^WͿ 2 2
ϭϬϬy ;^Ϳ 4 (2km
multi-mode)
4 (30km
single-mode)
4
ZĂĐŬŵŽƵŶƚ ZŝŶŐ ^ǁŝƚĐŚ
While RSTP can be used for network redundancy,
its original purpose is for interconnection in
any topology. MSR is designed for rapid failure
recovery which is more reliable and scalable for
industrial applications.
JetNet 5628G
JetNet 5628G-R
25. Industrial Ethernet Switch
24A Beijer Electronics Group Company www.korenix.com
:ĞƚEĞƚ ϱϲϮϴ'
:ĞƚEĞƚ ϱϲϮϴ'ͲZ
:ĞƚEĞƚ ϱϰϮϴ'
:ĞƚEĞƚ ϱϰϮϴ'Ͳ
:ĞƚEĞƚ ϱϰϮϴ'ͲϮ'Ͳy
Ϯн DŽĚƵůĂƌ 'ŝŐĂ DĂŶĂŐĞĚ Ϯн 'ŝŐĂ DĂŶĂŐĞĚ Ϯн 'ŝŐĂ DĂŶĂŐĞĚ
Interfaces
ϭϬͬϭϬϬdy WŽƌƚƐ max 24 24 24
ϭϬͬϭϬϬͬϭϬϬϬdy WŽƌƚƐ 4 (combo) 4 (combo) 2 (combo)
Fiber Ports ŵĂdž ϮϮ ;ϭϴ н ϰ'Ϳ 4 x 1000 SFP
Ϯ dž ϭϬϬͬϭϬϬϬ ^W н
2 x 1000 SFP
DI/DO (Dry Relay) /Console 2 x DI, 2 x DO, RS-232 RS-232 RS-232
DC Power Input
2 x 24/48 VDC (5628G)
2 x 80-370 VDC (5628G-2HDC)
2 x 12-48VDC (5428G-DC)
AC Power Input
1 x 85-264 VAC (5628G)
2 x 85-264 VAC (5628G-2AC)
1 x 90-264 VAC (5428G) 1 x 90-264 VAC
Hi-Pot AC 1.5KV AC 1.5KV AC 1.5KV
Features
MSR, MultiRing, TrunkRing, RDH භ භ භ
Broadcast Storm/ Loop Protection භΎ භΎ භΎ
ĂLJĞƌ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬϯͬϰ Ϳ භ භ භ
DHCP Server (Op82, Port-based) භ භ භ
JetView/ JetView Pro Managed භ භ භ
SW/Protocol
IPv6 Management භ භ භ
RSTP/MSTP භ භ භ
QoS Traffic Priority 8 Queues 4 Queues 4 Queues
VLAN, Private VLAN, QinQ, GVRP භ භ භ
IGMP Query, Snooping, GMRP
IGMP Query,
Snooping , GMRP
IGMP Query,
Snooping , GMRP
IGMP Query,
Snooping , GMRP
LLDP Network Discovery භ භ භ
LACP/ Static Trunking භ භ භ
IEEE 1588 PTP භ භ භ
Jumbo frame 9.2 Kbytes 9.2 Kbytes 9.2 Kbytes
Port Mirror භ භ භ
DDM SFP Monitoring භ
802.1x, IP/Port Security, HTTPS, SSH භ භ භ
Centralized Password Authentication Radius* Radius* Radius*
Modbus TCP Management භ භ භ
SNMP/RMON/Trap V1/V2c/V3 V1/V2c/V3 V1/V2c/V3
CLI/Web/Telnet භ භ භ
,tͬD
Housing Protection (IP) Metal Metal Metal
Dimension (H x W x D mm) 44 x 431 x 375 44 x 438 x 370 44 x 438 x 370
Mounting Rackmount Rackmount Rackmount
Operating Temperature -40~85°C (Fanless) -25~70°C (Fanless) -25~70°C (Fanless)
MTBF (hrs) 310,000
234,000 (5428G-DC)
219,000 (5428G)
219,000
ĞƌƟĮĐĂƚĞͬŽ
Regulatory Approval CE/FCC CE/FCC/UL CE/FCC/UL
RoHS/REACH භ භ භ
Vertical Market
Heavy Industry
EN50121-4 (EMC Rated)
NEMA TS2 (Rated)
Heavy Industry Heavy Industry
* Coming soon
26. 25 A Beijer Electronics Group Companywww.korenix.com
L2+ Security
From Layer 2 to Layer 4, Every Flow Under Control
Precisely permit or deny a specific traffic to come in from
a specific port and go out to a specific port.
MAC Level Security
Permit or deny a traffic by its:
ͻ ^ŽƵƌĐĞ D ĂĚĚƌĞƐƐ͕
ͻ /ŶĐŽŵŝŶŐ ƉŽƌƚ͕
ͻ ĞƐƚŝŶĂƚŝŽŶ D ĂĚĚƌĞƐƐ͕
ͻ KƵƚŐŽŝŶŐ ƉŽƌƚ͘
L2
IP Level Security
Permit or deny a traffic by its:
ͻ ^ŽƵƌĐĞ /W ĂĚĚƌĞƐƐ
ͻ /ŶĐŽŵŝŶŐ ƉŽƌƚ
ͻ ĞƐƚŝŶĂƚŝŽŶ /W ĂĚĚƌĞƐƐ͕
ͻ KƵƚŐŽŝŶŐ ƉŽƌƚ͘
L3
ƉƉůŝĐĂƟŽŶ ĞǀĞů ^ĞĐƵƌŝƚLJ
Permit or deny a traffic by its:
ͻ ^ŽƵƌĐĞ /W ĂĚĚƌĞƐƐ͕
ͻ ^ŽƵƌĐĞ dWͬhW ƉŽƌƚ͕
ͻ /ŶĐŽŵŝŶŐ ƉŽƌƚ͕
ͻ ĞƐƚŝŶĂƚŝŽŶ /W ĂĚĚƌĞƐƐ͕
ͻ ĞƐƚŝŶĂƚŝŽŶ dWͬhW ƉŽƌƚ͕
ͻ KƵƚŐŽŝŶŐ ƉŽƌƚ͘
L4
Wildcard.
Managing one or a group of hosts, IP addresses,
or traffic flows by a single click.
in
CLI
Modbus
SNMP
Others
Application level security prevents
malicious attacks from an unauthorized host.
Permit/Deny
27. 26A Beijer Electronics Group Company www.korenix.com
Unique
ƌŽŵ ƚŽ н
'ůŽďĂůůLJ ƵŶŝƋƵĞ /E ƌĂŝů Ϯн ƐǁŝƚĐŚ ĨƌŽŵ ŽƌĞŶŝdž
out
While a firewall protects
ƚŚĞ ĞdžƚĞƌŶĂů ĞŶƚƌĂŶĐĞ͕ Ă Ϯн
switch secures the subnet
internally at the boundary.
Precisely define the path
where a traffic is allowed to
go in the subnet.
Secured Interior.
L2 vs. L2+ Security
ZĞƐƚƌŝĐƟŽŶ͘
Firewall
Secured
Interior
L2+
L2+
L2+ L2+
L2 Security L2+
SecurityPort Security 802.1x IP Security
Allow authorized MAC to a port
Authorized IP can access the switch
Permit/Deny traffic from MAC A to MAC B
Permit/Deny traffic from IP A to IP B
Permit/Deny a specific application/service
Precisely define the traffic path in the subnet
28. 27 A Beijer Electronics Group Companywww.korenix.com
Industrial 16+2G SFP Layer 2 Plus
Managed Switch
ͻ ,ŝŐŚ ƉĞƌĨŽƌŵĂŶĐĞ ƐŝŶŐůĞ ĐŚŝƉ ƐŽůƵƚŝŽŶ ĨŽƌ ǁŝƌĞͲƐƉĞĞĚ ƐǁŝƚĐŚŝŶŐ
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ Ύ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ Ύ
* Coming soon
:ĞƚEĞƚ ϱϬϭϴ'Ͳǁ
,ŝŐŚ WĞƌĨŽƌŵĂŶĐĞ͕ EŽŶͲůŽĐŬŝŶŐ ^ŽůƵƟŽŶ
The single-chip 12.8G backplane
ŝƐ ŵƵĐŚ ŚŝŐŚĞƌ ƚŚĂŶ ϭϲнϮ'
requires. All traffic is forwarded
in wire-speed without any
blocking or loss. Compared to
two-chip blocking solutions
from some others, it ensures
quality data transmission in
mission-critical applications.
Permit or deny a packet according to its L2/L3/L4
information, and precisely define the path that the
packet is allowed to go.
ŝƐƟŶĐƚ ĂLJĞƌ Ϯн
ŝŶͲZĂŝů ^ǁŝƚĐŚ
Deny
Permit
FE 1
FE 3
FE 5
FE 7
FE 9
FE 11
FE 13
FE 15
GE. 1
FE 2
FE 4
FE 6
FE 8
FE 10
FE 12
FE 14
FE 16
GE. 2
Wire-speed Backplane
JetNet 5018G
Non-Blocking
FE 1
FE 3
FE 5
FE 7
FE 9
FE 11
FE 13
FE 15
GE. 1
FE 2
FE 4
FE 6
FE 8
FE 10
FE 12
FE 14
FE 16
GE. 2
Backing Backplane
Some others
Blocking
1G
29. Industrial Ethernet Switch
28A Beijer Electronics Group Company www.korenix.com
Industrial 8+4G SFP Layer 2 Plus
Managed Switch
ͻ ŝƐƚŝŶĐƚ ϴнϰ' ĚĞƐŝŐŶ
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ Ύ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌΎ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ
* Coming soon
:ĞƚEĞƚ ϱϬϭϮ'
hŶŝƋƵĞ ϰ' ^W ĞƐŝŐŶ
sĂƌŝĞƚLJ ŽĨ ƉŽƌƚ ĂƌƌĂŶŐĞŵĞŶƚƐ͗ ;ϭͿ ϴнϰ'
ĨŝďĞƌƐ͖ ;ϮͿ ϵнϯ' ĨŝďĞƌƐ͖ ;ϯͿ ϭϬнϮ' ĨŝďĞƌƐ͕
which is more flexible and easy for future
extensions.
^ƚƌŽŶŐ ZŝŶŐ ĂƉĂďŝůŝƚLJ
JetNet 5012G can be configured as a 2G
TrunkRing, or a MultiRing connecting a
core ring and an edge ring. It also satisfies
the bandwidth demand for an uplink and
a local server.
tŝƚŚ ƚŚĞ ĚŝƐƚŝŶĐƚ ϴнϰ' ƉŽƌƚ ĂƌƌĂŶŐĞŵĞŶƚ ĂŶĚ ƚŚĞ ĂĚǀĂŶĐĞĚ Ϯн ĨĞĂƚƵƌĞƐ͕ :ĞƚEĞƚ ϱϬϭϮ' ŚĂƐ ĨĞǁ
ĐŽŵƉĞƚŝƚŽƌƐ͘ /ƚ ŚĂƐ Ϯ ŵŽƌĞ ƉŽƌƚƐ ƚŚĂŶ ƚŚĞ ϳнϯ' ƐǁŝƚĐŚĞƐ ƚŽ ĞdžƉĂŶĚ ƌŝŶŐ ĐŽŶĨŝŐƵƌĂƚŝŽŶ͕ ĂŶĚ ŝƐ ŵŽƌĞ
appropriate for most kinds of applications than the full gigabit switches.
,ŝŐŚ sĂůƵĞ ůƚĞƌŶĂƟǀĞ ƚŽ ϳнϯ' ĂŶĚ Ƶůů 'ŝŐĂ ^ŽůƵƟŽŶƐ
8 x 10/100TX RJ45
Ϯ dž 'ŝŐĂďŝƚ ^W
2 x SFP combo port
ͻ Ϯ ϭϬͬϭϬϬͬϭϬϬϬdy Z:ϰϱ
ͻ 2 Gigabit SFP
Giga fiber
core ring
Giga fiber
edge ring
2 Giga fiber ring
TrunkRing
Uplink
Local server
Giga
Fiber ring
hE/Yh
30. 29 A Beijer Electronics Group Companywww.korenix.com
Industrial 16+2 SFP Layer 2 Plus
Managed Switch
ͻ ,ŝŐŚ ƉĞƌĨŽƌŵĂŶĐĞ ƐŝŶŐůĞ ĐŚŝƉ ƐŽůƵƚŝŽŶ ĨŽƌ ǁŝƌĞͲƐƉĞĞĚŝŶŐ ƐǁŝƚĐŚŝŶŐ
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ Ύ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ Ύ
ͻ ͲDĂƌŬ ĂƉƉƌŽǀĂů ĨŽƌ ǀĞŚŝĐůĞ ĂƉƉůŝĐĂƚŝŽŶƐ
* Coming soon
JetNet 4518-w
Industrial 8+2G SFP Layer 2 Plus Managed Switch Board
ͻ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬ ϯͬ ϰ Ϳ ƉƌĞĐŝƐĞ ĨůŽǁ ĨŝůƚĞƌŝŶŐͬĐŽŶƚƌŽů
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
:ĞƚĂƌĚ ϱϬϭϬ'ͲW
ͲDĂƌŬ ƉƉƌŽǀĂů
JetNet 4518 is E-Mark certificated for vehicles.
The 18 ports can integrate plenty of IP devices,
such as IP cameras, NVR, wireless AP, 3G
routers, embedded computers, LED signatures
and so on.
JetNet 4518
WŽƌƚͲĂƐĞĚ ,W ƐƐŝŐŶƐ
Fixed IP On Vehicle
It allows users to manually configure specific IP by port. A device
will always get a fixed IP as long as it is connected to the same
port, which makes IP maintenance much easier on the vehicle.
31. Industrial Ethernet Switch
30A Beijer Electronics Group Company www.korenix.com
:ĞƚEĞƚ ϱϬϭϴ'Ͳǁ :ĞƚEĞƚ ϱϬϭϮ' :ĞƚĂƌĚ ϱϬϭϬ'ͲW JetNet 4518-w
Ϯн 'ŝŐĂ DĂŶĂŐĞĚ Ϯн 'ŝŐĂ DĂŶĂŐĞĚ Ϯн 'ŝŐĂ DĂŶĂŐĞĚ Ϯн DĂŶĂŐĞĚ
Interfaces
ϭϬͬϭϬϬdy WŽƌƚƐ 16 8 8 ϭϲ н Ϯ;ĐŽŵďŽͿ
ϭϬͬϭϬϬͬϭϬϬϬdy WŽƌƚƐ 2 (combo) 2 (combo)
Fiber Ports 2 x 100/1000 SFP 4 x 1000 SFP 2 x 1000 SFP 2 x 100 SFP
DI/DO (Dry Relay) /Console 2 x DO, RS-232 2 x DO, RS-232 RS-232 2 x DO, RS-232
DC Power Input 2 x DC24V (12-48V) 2 x DC24V (12-48V) 3.3V 2 x DC24V (12-48V)
Hi-Pot AC 1.5KV AC 1.5KV AC 1.5KV
Features
MSR, MultiRing, TrunkRing, RDH භ භ භ භ
Broadcast Storm/ Loop Protection භΎ භΎ භΎ
ĂLJĞƌ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬϯͬϰ Ϳ භ භ භ භ
DHCP Server (Op82, Port-based) භ භ DHCP Server භ
JetView/ JetView Pro Managed භ භ භ භ
SW/Protocol
IPv6 Management භ භ භ
RSTP/MSTP භ භ RSTP භ
QoS Traffic Priority 4 Queues 4 Queues 4 Queues 4 Queues
VLAN, Private VLAN, QinQ, GVRP භ භ VLAN, GVRP භ
IGMP Query, Snooping, GMRP
IGMP Query,
Snooping, GMRP
IGMP Query,
Snooping, GMRP
IGMP Snooping
IGMP Query,
Snooping, GMRP
LLDP Network Discovery භ භ භ භ
LACP/ Static Trunking භ භ භ භ
IEEE 1588 PTP භ භ භ භ
Jumbo frame 9.2 Kbytes 9.2 Kbytes 9.2 Kbytes 9.2 Kbytes
Port Mirror භ භ භ භ
DDM SFP Monitoring භ භ භ
802.1x, IP/Port Security, HTTPS, SSH භ භ භ භ
Centralized Password Authentication Radius* Radius* Radius*
Modbus TCP Management භ භ භ
SNMP/RMON/Trap V1/V2c/V3 V1/V2c/V3 V1/V2c/V3 V1/V2c/V3
CLI/Web/Telnet භ භ භ භ
,tͬD
Housing Protection (IP) IP31 Aluminum IP31 Aluminum IP31 Aluminum
Dimension (H x W x D mm) 137 x 96 x 129 137 x 96 x 129 30 x 127.4 x 122.5 137 x 96 x 129
Mounting DIN Rail DIN Rail PCBoard Mounting DIN Rail
Operating Temperature -40~70°C -40~70°C -25~70°C -40~75°C
MTBF (hrs) 468,000 402,000 468,000
ĞƌƟĮĐĂƚĞͬŽ
Regulatory Approval CE/FCC/UL CE/FCC/UL CE/FCC/UL
RoHS/REACH භ භ භ භ
Vertical Market Heavy Industry Heavy Industry
Heavy Industry
E-Mark
* Coming soon
32. 31 A Beijer Electronics Group Companywww.korenix.com
Industrial 9-port Full Gigabit L2 Managed Switch
ͻ ,ƵŐĞ ďĂŶĚǁŝĚƚŚ ĨŽƌ ůĂƌŐĞ ǀŝĚĞŽ ƐƵƌǀĞŝůůĂŶĐĞ ƉƌŽũĞĐƚƐ
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌ
ͻ tŝĚĞ ƌĂŶŐĞ ĚƵĂů ϭϬ͘ϱͲϲϬs ƉŽǁĞƌ ŝŶƉƵƚƐ
:ĞƚEĞƚ ϲϬϱϵ'
Exceeds railway EMC EN50121-4, Traffic control
NEMA TS2 and Heavy-industrial standards by
outstanding electrical slow transient (Surge),
Radio-Frequency Electromagnetic Field (RS),
and Electromagnetic Fast Transient (EFT) levels.
JetNet 6059G is an ideal solution for industrial
applications.
^ƵƉĞƌď D WƌŽƚĞĐƟŽŶ
Ƶůů 'ŝŐĂďŝƚ ŝďĞƌ YƵĂůŝƚLJ DŽŶŝƚŽƌŝŶŐ
Its huge bandwidth capacity is able to carry
a large number of mega pixel cameras to the
central office through multi-gigabit TrunkRing
backbone.
DDM (Digital Diagnostic Monitoring) monitors
SFP parameters, such as optical output power,
optical input power, and temperature in real-
time for fast maintenance and debugging
without additional optical cable analyzers.
EϱϬϭϮϭͲ
4 Railway
ED d^Ϯ
dƌĂĸĐ
Control
Heavy
Ind.
JetNet
ϲϬϱϵ'
ESD (V) 6K,8K/B 4K,8K/B 4K,8K/B 6K,8K/A
R.S.(V) 20V 3V 3V 20V
EFT (V) 2K 2K/1K 2K/1K 4K/4K,A
Surge (V) 1K/L-L
2K/L-N
1K/L-L
2K/L-N
1K/L-L
2K/L-N
2K/L-L, A
4K/L-N, A
C.S.(V) 10V 10V 10V 10V,A
33. Industrial Ethernet Switch
32A Beijer Electronics Group Company www.korenix.com
Industrial 7+3(G) SFP L2 Managed Switch
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌΎ
ͻ tŝĚĞ ƌĂŶŐĞ ĚƵĂů ϭϬ͘ϲͲϲϬs ƉŽǁĞƌ ŝŶƉƵƚƐ
ͻ ED d^Ϯ ƌĂƚĞĚ ĨŽƌ ƚƌĂĨĨŝĐ ĐŽŶƚƌŽů ĂƉƉůŝĐĂƚŝŽŶƐ
:ĞƚEĞƚ ϱϬϭϬ'͕ ϰϱϭϬ
3 SFP Combo Ports
ED d^Ϯ ŽŵƉůŝĂŶƚ
Best Fit for Wind Farm
ůĞdžŝďůĞ ĐŽŶĨŝŐƵƌĂƚŝŽŶƐ͗ ϳнϯ͕ ϴнϮ͕ ϵнϭ Žƌ ϭϬ
coppers, which is suitable for most applications
such as ring interconnection and 3-dimensional
installation.
JetNet 5010G, 4510 is suitable for most
industrial applications. In addition, with
its 10.6-60VDC power input and -40~75o
C
operating temperature, JetNet 5010G(-w), 4510
(-w) has passed NEMA TS2 related tests for
traffic control applications.
The 3 SFP fiber optic ports perfectly connect
the wind turbine and wind towers. The MSR
redundant ring and the broadcast storm
protection mechanism ensure a stable and
reliable wind farm network.
Ring interconnection Three dimensional
installation
Two single mode fibers connect wind towers and
one multi mode fiber links to the wind turbine
34. 33 A Beijer Electronics Group Companywww.korenix.com
Industrial 8-port L2 Managed Switch
ͻ ŽŽƉ ƉƌŽƚĞĐƚŝŽŶ ƉƌĞǀĞŶƚƐ ďƌŽĂĚĐĂƐƚ ƐƚŽƌŵ
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dWͬD^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ĐŽŶŶĞĐƚŝŽŶ
ͻ WƌŝǀĂƚĞ s E ĞĂƐŝůLJ ĐŽŶĨŝŐƵƌĞ ĐŽŵŵƵŶŝƚLJ ĂŶĚ ŝƐŽůĂƚĞĚ s E
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ZĂĚŝƵƐ ůŽŐŝŶ ĨŽƌ ĐĞŶƚƌĂůŝnjĞĚ ƉĂƐƐǁŽƌĚ ĂƵƚŚĞŶƚŝĐĂƚŝŽŶ
ͻ ĚǀĂŶĐĞĚ ,W ĂƐƐŝŐŶƐ ĨŝdžĞĚ /W ďLJ KƉϴϮ Žƌ WŽƌƚͲďĂƐĞĚ ,W ƐĞƌǀĞƌ
ͻ tŝĚĞ ƌĂŶŐĞ ĚƵĂů ϭϬͲϲϬs ƉŽǁĞƌ ŝŶƉƵƚƐ
ͻ džĐĞĞĚƐ EϱϬϭϮϭͲϰ D ĨŽƌ ƌĂŝůǁĂLJ ƚƌĂĐŬ ƐŝĚĞ ĂƉƉůŝĐĂƚŝŽŶƐ
:ĞƚEĞƚ ϰϱϬϴ͕ ϰϱϬϴĨ
ŶĂďůŝŶŐ /Z ŝŶ WŽǁĞƌ ŝƐƚƌŝďƵƟŽŶ ĂƚĂ EĞƚǁŽƌŬ
ŽŵƉĂĐƚ͕ ZƵŐŐĞĚ͕ 'ƌĞĂƚ ŽŽůŝŶŐ
ĨŽƌ ,ĂƌƐŚ ŶǀŝƌŽŶŵĞŶƚƐ
JetNet 4508f is compact, rugged and fits into FTU (Feeder Terminal Unit) well. By enabling MSR
redundant ring, any link failure can be detected, identified, and recovered (FDIR). The failure location
is reported and shown to the administrators by Korenix's network management system, JetView pro,
which helps to minimize the down time.
The slim body is just as wide as a business card. The
internal components that generate heat are directly
attached to the entire aluminum housing. Its great
cooling effect ensures a stable operation at 75o
C with
IP31 protection.
RS
RS
Redundant Fiber Network
Korenix MSR Redundant Ring
;ZĞĐŽǀĞƌLJ dŝŵĞ ф ϱ ŵƐ͕ ZĞƐƚŽƌĂƚŝŽŶ dŝŵĞ с ϬŵƐͿ
Substation central monitoring
Pole mount
line switch FTU
Pad mount
line switch FTU
JetNet 4508f
JetNet 4508fJetNet 4508
JetView pro
35. Industrial Ethernet Switch
34A Beijer Electronics Group Company www.korenix.com
Industrial 6-port L2 Managed Switch
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ
ͻ Z^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ĐŽŶŶĞĐƚŝŽŶ
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚ
ͻ ^ƵƉƉŽƌƚ ^EDW ĂŶĚ ŵĂŶĂŐĞĚ ďLJ :ĞƚsŝĞǁ ƉƌŽ
ͻ ^ƵƉƉŽƌƚ ŝŶͲZĂŝů ĂŶĚ tĂůůͲŵŽƵŶƚ
:ĞƚEĞƚ ϰϬϬϲ͕ ϰϬϬϲĨ
Ƶůů EĞƚǁŽƌŬ DĂŶĂŐĞŵĞŶƚ ĞĂƚƵƌĞƐ
ǁŝƚŚ ŝƚĞ DĂŶĂŐŝŶŐ /ŶƚĞƌĨĂĐĞ
JetNet 4010 is a web-managed Ethernet switch that supports the most commonly used network
management features that such as MSR, RSTP, VLAN, QoS, IGMP snooping and so on. Users who
do not need advanced group management features or SNMP can benefit from this cost effective
solution in their projects.
User-friendly web interface JetView utility
JetNet 4006
JetNet 4006f
Cisco-like CLI
Industrial 7+3 SFP Web-Managed Switch
ͻ DƵůƚŝƉůĞ ^ƵƉĞƌ ZŝŶŐ͕ ĨĂŝůŽǀĞƌ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ^ƵƉƉŽƌƚ ZŝŶŐ DĂƐƚĞƌ ƌĞĚƵŶĚĂŶĐLJ͕ DƵůƚŝZŝŶŐ͕ dƌƵŶŬZŝŶŐ͕ Z,
ͻ Z^dW ŚŝŐŚ ĐŽŵƉĂƚŝďŝůŝƚLJ ĨŽƌ ϯƌĚ ƉĂƌƚLJ ƐǁŝƚĐŚ ŝŶƚĞƌĐŽŶŶĞĐƚŝŽŶ
ͻ KƉƚŝŵŝnjĞĚ /'DW ^ŶŽŽƉŝŶŐ ĨŽƌ ƋƵĂůŝƚLJ ǀŝĚĞŽ ŵƵůƚŝĐĂƐƚŝŶŐ
ͻ ED d^Ϯ ƌĂƚĞĚ ĨŽƌ ƚƌĂĨĨŝĐ ĐŽŶƚƌŽů ĂƉƉůŝĐĂƚŝŽŶƐ
ͻ tŝĚĞ ƌĂŶŐĞ ĚƵĂů ϭϬ͘ϲͲϲϬs ƉŽǁĞƌ ŝŶƉƵƚƐ
JetNet 4010
36. 35 A Beijer Electronics Group Companywww.korenix.com
:ĞƚEĞƚ ϲϬϱϵ' :ĞƚEĞƚ ϱϬϭϬ' JetNet 4510 JetNet 4508
Ƶůů 'ŝŐĂ Ϯ DĂŶĂŐĞĚ 'ŝŐĂ Ϯ DĂŶĂŐĞĚ Ϯ DĂŶĂŐĞĚ Ϯ DĂŶĂŐĞĚ
Interfaces
ϭϬͬϭϬϬdy WŽƌƚƐ 7 ϳ н ϯ;ĐŽŵďŽͿ 8
ϭϬͬϭϬϬͬϭϬϬϬdy WŽƌƚƐ ϰ н ϱ;ĐŽŵďŽͿ 3 (combo)
Fiber Ports 5 x 100/1000 SFP 3 x 100/1000 SFP 3 x 100 SFP
DI/DO (Dry Relay) /Console
1 x DI, 1 x DO,
RS-232 (isolated)
2 x DI, 2 x DO,
RS-232
2 x DI, 2 x DO,
RS-232
1 x DI, 1 x DO,
RS-232
DC Power Input 2 x DC24V (10.5-60V) 2 x DC24V (10.6-60V) 2 x DC24V (10.6-60V) 2 x DC24V (10-60V)
Hi-Pot AC 1.5KV AC 1.2KV AC 1.2KV AC 1.5KV
Features
MSR, MultiRing, TrunkRing, RDH භ භ භ භ
Broadcast Storm/ Loop Protection භ භ භ භ
ĂLJĞƌ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬϯͬϰ Ϳ
DHCP Server (Op82, Port-based) භ භΎ භΎ භ
JetView/ JetView Pro Managed භ භ භ භ
SW/Protocol
IPv6 Management භ භ භ භ
RSTP/MSTP භ භ භ භ
QoS Traffic Priority 4 Queues 4 Queues 4 Queues 4 Queues
VLAN, Private VLAN, QinQ, GVRP භ භ භ භ
IGMP Query, Snooping, GMRP
IGMP Query,
Snooping, GMRP
IGMP Query, Snooping IGMP Query, Snooping
IGMP Query,
Snooping, GMRP
LLDP Network Discovery භ භ භ භ
LACP/ Static Trunking භ භ භ භ
IEEE 1588 PTP භ භ
Jumbo frame
Port Mirror භ භ භ භ
DDM SFP Monitoring භ භ භ
802.1x, IP/Port Security, HTTPS, SSH භ භ භ භ
Centralized Password Authentication Radius Radius Radius Radius
Modbus TCP Management භ භ භ භ
SNMP/RMON/Trap V1/V2c/V3 V1/V2c/V3 V1/V2c/V3 V1/V2c/V3
CLI/Web/Telnet භ භ භ භ
,tͬD
Housing Protection (IP) IP31 Aluminum IP31 Aluminum IP31 Aluminum
IP31 Aluminum
Steel Metal
Dimension (H x W x D mm) 160 x 95 x 136 137 x 96 x 119 137 x 96 x 119 149 x 55 x 120.6
Mounting DIN Rail / Wall Mount DIN Rail / Wall Mount DIN Rail / Wall Mount DIN Rail
Operating Temperature -25~70°C/-40~75°C (-w) -25~70°C/-40~75°C (-w) -25~70°C/-40~75°C (-w) -25~70°C/-40~75°C (-w)
MTBF (hrs) 425,000 458,000 458,000 701,000
ĞƌƟĮĐĂƚĞͬŽ
Regulatory Approval CE/FCC/UL CE/FCC/UL CE/FCC/UL CE/FCC/UL
RoHS/REACH භ භ භ භ
Vertical Market
Heavy Industry
NEMA Compliance
Heavy Industry
NEMA Compliance
Heavy Industry
NEMA Compliance
Heavy Industry
EN50121-4, IEC 61373
NEMA Compliance
* Coming soon
37. Industrial Ethernet Switch
36A Beijer Electronics Group Company www.korenix.com
JetNet 4508f JetNet 4010 JetNet 4006 JetNet 4006f
Ϯ DĂŶĂŐĞĚ Ϯ tĞď DĂŶĂŐĞĚ Ϯ DĂŶĂŐĞĚ Ϯ DĂŶĂŐĞĚ
Interfaces
ϭϬͬϭϬϬdy WŽƌƚƐ 6 ϳ н ϯ;ĐŽŵďŽͿ 6 4
ϭϬͬϭϬϬͬϭϬϬϬdy WŽƌƚƐ
Fiber Ports
Ϯ dž ϭϬϬyͬ ^
2km (4508f-m)
30km (4508f-s)
3 x 100 SFP
Ϯ dž ϭϬϬyͬ ^
2km (4006f-m)
30km (4006f-s)
DI/DO (Dry Relay) /Console 1 x DI, 1 x DO, RS-232 2 x DI, 2 x DO, RS-232 1 x DO, RS-232 1 x DO, RS-232
DC Power Input 2 x DC24V (10-60V) 2 x DC24V (10.6-60V) 2 x DC 24V ( 12~48V) 2 x DC 24V ( 12~48V)
Hi-Pot AC 1.5KV AC 1.2KV AC 1.2KV AC 1.2KV
Features
MSR, MultiRing, TrunkRing, RDH භ භ MSR, RDH MSR, RDH
Broadcast Storm/ Loop Protection භ
ĂLJĞƌ Ϯн ^ĞĐƵƌŝƚLJ ;Ϯͬϯͬϰ Ϳ
DHCP Server (Op82, Port-based) භ DHCP server DHCP server DHCP server
JetView/ JetView Pro Managed භ JetView භ භ
SW/Protocol
IPv6 Management භ
RSTP/MSTP භ RSTP RSTP RSTP
QoS Traffic Priority 4 Queues 4 Queues 4 Queues 4 Queues
VLAN, Private VLAN, QinQ, GVRP භ VLAN, GVRP Port Based VLAN Port Based VLAN
IGMP Query, Snooping, GMRP
IGMP Query,
Snooping, GMRP
IGMP Query, Snooping IGMP Query, Snooping IGMP Query, Snooping
LLDP Network Discovery භ භ භ භ
LACP/ Static Trunking භ භ
IEEE 1588 PTP භ
Jumbo frame
Port Mirror භ භ භ භ
DDM SFP Monitoring
802.1x, IP/Port Security, HTTPS, SSH භ භ IP Security, HTTPS, SSH IP Security, HTTPS, SSH
Centralized Password Authentication Radius
Modbus TCP Management භ
SNMP/RMON/Trap V1/V2c/V3 V1/V2c/V3 V1/V2c/V3
CLI/Web/Telnet භ භ භ භ
,tͬD
Housing Protection (IP)
IP31 Aluminum
Steel Metal
IP31 Aluminum IP31 Aluminum IP31 Aluminum
Dimension (H x W x D mm) 149 x 55 x 120.6 137 x 96 x 119 45.5 x 185.3 x 136 45.5 x 185.3 x 136
Mounting DIN Rail DIN Rail / Wall Mount DIN Rail /Wall Mount Din Rail /Wall Mount
Operating Temperature -10~70°C/-40~75°C (-w) -25~70°C/-40~75°C (-w) -25~70°C -10~60°C
MTBF (hrs) 661,000 458,000 388,000 315,000
ĞƌƟĮĐĂƚĞͬŽ
Regulatory Approval CE/FCC/UL CE/FCC/UL CE/FCC CE/FCC
RoHS/REACH භ භ භ භ
Vertical Market
Heavy Industry
EN50121-4, IEC 61373
NEMA Compliance
Heavy Industry
NEMA Compliance
* Coming soon
38. 37 A Beijer Electronics Group Companywww.korenix.com
WůƵŐ ĂŶĚ WůĂLJ͕ ,ĂƌĚĞŶĞĚ ^ŽůƵƟŽŶ ĨŽƌ
Industrial Surveillance
With the full gigabit, QoS and jumbo frame, the 8-port and 5-port
hardened plug--play switches are ideal for high resolution video
transmission in industrial environments such as traffic surveillance, city
surveillance, public hotspots and so on.
Industrial Full Gigabit Ethernet Switch
ͻ Ƶůů 'ŝŐĂďŝƚ
ͻ dŚŝĐŬ͕ ƌƵŐŐĞĚ ĂůƵŵŝŶƵŵ ŚŽƵƐŝŶŐ ƐƚƌŽŶŐĞƌ ƚŚĂŶ ƉůĂƐƚŝĐ
ͻ ƵƌĂďůĞ͕ ĐŽƌƌŽƐŝŽŶ ƌĞƐŝƐƚĂŶƚ ĂŶĚ ƌƵƐƚ ƌĞƐŝƐƚĂŶƚ ŚŽƵƐŝŶŐ
ͻ džĐĞůůĞŶƚ ĐŽŽůŝŶŐ ĞŶŚĂŶĐĞƐ ƐƚĂďŝůŝƚLJ ŝŶ ĞdžƚƌĞŵĞ ƚĞŵƉĞƌĂƚƵƌĞƐ
ͻ /Wϯϭ ǁŝƚŚ ŶŽ ŚŽůĞƐ Žƌ ŽƉĞŶŝŶŐƐ ŽŶ ƚŚĞ ƚŽƉ ƉƌŽǀŝĚĞƐ ďĞƚƚĞƌ ƉƌŽƚĞĐƚŝŽŶ
:ĞƚEĞƚ ϯϬϬϴ'͕ ϯϬϬϱ'
JetNet 3008G JetNet 3005G
Industrial 16+2G SFP Gigabit Ethernet Switch
ͻ dŚŝĐŬ͕ ƌƵŐŐĞĚ ĂůƵŵŝŶƵŵ ŚŽƵƐŝŶŐ ƐƚƌŽŶŐĞƌ ƚŚĂŶ ƉůĂƐƚŝĐ
ͻ ƵƌĂďůĞ͕ ĐŽƌƌŽƐŝŽŶ ƌĞƐŝƐƚĂŶƚ ĂŶĚ ƌƵƐƚ ƌĞƐŝƐƚĂŶƚ ŚŽƵƐŝŶŐ
ͻ džĐĞůůĞŶƚ ĐŽŽůŝŶŐ ĞŶŚĂŶĐĞƐ ƐƚĂďŝůŝƚLJ ŝŶ ĞdžƚƌĞŵĞ ƚĞŵƉĞƌĂƚƵƌĞƐ
ͻ /Wϯϭ ǁŝƚŚ ŶŽ ŚŽůĞƐ Žƌ ŽƉĞŶŝŶŐƐ ŽŶ ƚŚĞ ƚŽƉ ƉƌŽǀŝĚĞƐ ďĞƚƚĞƌ ƉƌŽƚĞĐƚŝŽŶ
:ĞƚEĞƚ ϯϬϭϴ'
FE 1
FE 3
FE 5
FE 7
FE 9
FE 11
FE 13
FE 15
GE. 1
FE 2
FE 4
FE 6
FE 8
FE 10
FE 12
FE 14
FE 16
GE. 2
Wire-speed Backplane
JetNet 3018G
Non-Blocking
FE 1
FE 3
FE 5
FE 7
FE 9
FE 11
FE 13
FE 15
GE. 1
FE 2
FE 4
FE 6
FE 8
FE 10
FE 12
FE 14
FE 16
GE. 2
Some others
Blocking
1G
,ŝŐŚ WĞƌĨŽƌŵĂŶĐĞ͕ EŽŶͲůŽĐŬŝŶŐ ^ŽůƵƟŽŶ
The single-chip 12.8G backplane is
ŵƵĐŚ ŚŝŐŚĞƌ ƚŚĂŶ ϭϲнϮ' ƌĞƋƵŝƌĞƐ͘
All traffic is forwarded in wire-
speed without any blocking or loss.
Compared to two-chip blocking
solutions of some switches, it
ensures quality data transmission in
mission-critical applications.
39. Industrial Ethernet Switch
38A Beijer Electronics Group Company www.korenix.com 38A Beijer Electronics Group Company www.korenix.com
Industrial 7+3G SFP Gigabit Ethernet Switch
ͻ dŚŝĐŬ͕ ƌƵŐŐĞĚ ĂůƵŵŝŶƵŵ ŚŽƵƐŝŶŐ ƐƚƌŽŶŐĞƌ ƚŚĂŶ ƉůĂƐƚŝĐ
ͻ ƵƌĂďůĞ͕ ĐŽƌƌŽƐŝŽŶ ƌĞƐŝƐƚĂŶƚ ĂŶĚ ƌƵƐƚ ƌĞƐŝƐƚĂŶƚ ŚŽƵƐŝŶŐ
ͻ džĐĞůůĞŶƚ ĐŽŽůŝŶŐ ĞŶŚĂŶĐĞƐ ƐƚĂďŝůŝƚLJ ŝŶ ĞdžƚƌĞŵĞ ƚĞŵƉĞƌĂƚƵƌĞƐ
ͻ /Wϯϭ ǁŝƚŚ ŶŽ ŚŽůĞƐ Žƌ ŽƉĞŶŝŶŐƐ ŽŶ ƚŚĞ ƚŽƉ ƉƌŽǀŝĚĞƐ ďĞƚƚĞƌ ƉƌŽƚĞĐƚŝŽŶ
ͻ dLJƉŝĐĂů ŵŽĚĞů ŚĂŶĚůĞƐ ͲϮϱΕϳϬΣ ŽƉĞƌĂƚŝŶŐ ƚĞŵƉĞƌĂƚƵƌĞƐ
:ĞƚEĞƚ ϯϬϭϬ'
:ĞƚEĞƚ ϯϬϭϴ' :ĞƚEĞƚ ϯϬϭϬ' :ĞƚEĞƚ ϯϬϬϴ' :ĞƚEĞƚ ϯϬϬϱ'
ϭϲнϮ' hŶŵĂŶĂŐĞĚ ϭϬнϯ' hŶŵĂŶĂŐĞĚ ϴ Ƶůů ' hŶŵĂŶĂŐĞĚ ϱ Ƶůů ' hŶŵĂŶĂŐĞĚ
Interface
ϭϬͬϭϬϬdy WŽƌƚƐ 16 7
ϭϬͬϭϬϬͬϭϬϬϬdy WŽƌƚƐ
Ϯ dž ϭϬϬͬϭϬϬϬdy
(Combo)
Wϴ͗ ϭϬͬϭϬϬͬϭϬϬϬdy
(combo)
Wϵ͗ ϭϬͬϭϬϬͬϭϬϬϬdy
(combo)
WϭϬ͗ ϭϬϬϬdy ;ĐŽŵďŽͿ
8 5
Fiber Ports 2 x 1000 SFP 3 x 1000 SFP
DI/DO (Dry Relay) 2 DO 1 DO 1 DO
Power Input 2 x DC24V (12~48V) 2 x DC24V (10.6~60V) 2 x DC 24V (12~48V) 2 x DC 24V (12~48V)
Hi-Pot AC 1.5KV AC 1.2KV AC 1KV AC 1KV
Feature
QoS Traffic Priority 4 Queues 4 Queues 4 Queues 4 Queues
Broadcast Storm Filtering භ භ
Port/ Power Event Alarm Port 17,18 Alarm භ භ
Jumbo frame 9.2 Kbytes 9.6Kbytes 9.6Kbytes
,tͬD
Housing Protection (IP) IP31 Aluminum IP31 Aluminum IP31 Aluminum IP31 Aluminum
Dimension (H x W x D mm) 137 x 96 x 129 137 x 96 x 119 120 x 55 x 108 120 x 55 x 108
Mounting DIN Rail / Wall Mount DIN Rail / Wall Mount DIN Rail DIN Rail
Operating Temperature -40~75°C -25~70°C/-40~70°C (-w) -10~70°C -10~70°C
MTBF (hrs) 468,000 460,000 382,000 386,000
ĞƌƟĮĐĂƚĞͬŽ
Regulatory Approval CE/ FCC/ UL CE/FCC/UL CE/ FCC CE/ FCC
RoHS/REACH භ භ භ භ
Vertical Market Heavy Industry Heavy Industry
40. 39 A Beijer Electronics Group Companywww.korenix.com
Industrial 8-port Fast Ethernet Switch
ͻ dŚŝĐŬ͕ ƌƵŐŐĞĚ ĂůƵŵŝŶƵŵ ŚŽƵƐŝŶŐ ƐƚƌŽŶŐĞƌ ƚŚĂŶ ƉůĂƐƚŝĐ
ͻ ƵƌĂďůĞ͕ ĐŽƌƌŽƐŝŽŶ ƌĞƐŝƐƚĂŶƚ ĂŶĚ ƌƵƐƚ ƌĞƐŝƐƚĂŶƚ
ͻ džĐĞůůĞŶƚ ĐŽŽůŝŶŐ ĞŶŚĂŶĐĞƐ ƐƚĂďŝůŝƚLJ ŝŶ ĞdžƚƌĞŵĞ ƚĞŵƉĞƌĂƚƵƌĞƐ
ͻ /Wϯϭ ǁŝƚŚ ŶŽ ŚŽůĞƐ Žƌ ŽƉĞŶŝŶŐƐ ŽŶ ƚŚĞ ƚŽƉ ƉƌŽǀŝĚĞƐ ďĞƚƚĞƌ ƉƌŽƚĞĐƚŝŽŶ
ͻ dLJƉŝĐĂů ŵŽĚĞů ŚĂŶĚůĞƐ ͲϮϱΕϳϬΣ ŽƉĞƌĂƚŝŶŐ ƚĞŵƉĞƌĂƚƵƌĞƐ ;ϯϬϬϴͿ
ͻ tŝĚĞ ƌĂŶŐĞ ĚƵĂů ϭϬΕϲϬs ƉŽǁĞƌ ŝŶƉƵƚƐ
ͻ EϱϬϭϮϭͲϰ ĂƉƉƌŽǀĂů ĨŽƌ ƌĂŝůǁĂLJ ĂƉƉůŝĐĂƚŝŽŶƐ
ͻ ĞͲŵĂƌŬ ĂƉƉƌŽǀĂů ĨŽƌ ǀĞŚŝĐůĞ ĂƉƉůŝĐĂƚŝŽŶƐ
:ĞƚEĞƚ ϯϬϬϴ͕ ϯϬϬϴĨ
JetNet 3008 JetNet 3008f
EϱϬϭϮϭͲϰ ĂŶĚ ĞͲDĂƌŬ ƉƉƌŽǀĂů
The JetNet 3008 series provides a high level of EMC protection
exceeding heavy industrial standards with distinguished electrical
slow transient (Surge), radio-frequency electromagnetic field (RS),
Electrical Fast Transient (EFT) protections. It provides reliable
connectivity in harsh industrial environments.
ŶĂďůŝŶŐ EĞƚǁŽƌŬŝŶŐ ŝŶ
Your Machinery
The slim and rugged design makes JetNet 2005
the best solution to be a networking component
in heavy equipments or machines to provide
reliable internal and external connectivity.
Simply Reliable
High quality, plug-and-play
switch with an extremely
low RMA rate. Just put it in
the system and let it work
for you without worry.
0.01%
Accumulated
RMA rate
JetNet 2005 JetNet 2005f
Industrial 5-port Fast Ethernet Switch
ͻ ^ůŝŵ ǁŝƚŚŽƵƚ ĐŽŵƉƌŽŵŝƐĞ ŽŶ ƐƚƌĞŶŐƚŚ
ͻ dŚŝĐŬ͕ ƌƵŐŐĞĚ ĂůƵŵŝŶƵŵ ŚŽƵƐŝŶŐ ƐƚƌŽŶŐĞƌ ƚŚĂŶ ƉůĂƐƚŝĐ
ͻ ƵƌĂďůĞ͕ ĐŽƌƌŽƐŝŽŶ ƌĞƐŝƐƚĂŶƚ ĂŶĚ ƌƵƐƚ ƌĞƐŝƐƚĂŶƚ
ͻ džĐĞůůĞŶƚ ĐŽŽůŝŶŐ ĞŶŚĂŶĐĞƐ ƐƚĂďŝůŝƚLJ ŝŶ ĞdžƚƌĞŵĞ ƚĞŵƉĞƌĂƚƵƌĞƐ
ͻ /Wϯϭ ǁŝƚŚ ŶŽ ŚŽůĞƐ Žƌ ŽƉĞŶŝŶŐƐ ŽŶ ƚŚĞ ƚŽƉ ƉƌŽǀŝĚĞƐ ďĞƚƚĞƌ ƉƌŽƚĞĐƚŝŽŶ
ͻ dLJƉŝĐĂů ŵŽĚĞů ŚĂŶĚůĞƐ ͲϮϱΕϳϬΣ ŽƉĞƌĂƚŝŶŐ ƚĞŵƉĞƌĂƚƵƌĞƐ ;ϮϬϬϱͿ
:ĞƚEĞƚ ϮϬϬϱ͕ ϮϬϬϱĨ
41. Industrial Ethernet Switch
40A Beijer Electronics Group Company www.korenix.com
Industrial 2-Channel Ethernet to Fiber Media Converter,
Industrial 4-port Ethernet Switch
ͻ ϰͲƉŽƌƚ ĂƐƚ ƚŚĞƌŶĞƚ ƐǁŝƚĐŚ Žƌ ϮͲĐŚĂŶŶĞů ƚŚĞƌŶĞƚ ŝďĞƌ
Media Converter
ͻ WŽƌƚ ĂŶĚ ƉŽǁĞƌ ůŽƐƐ ĂůĂƌŵ
ͻ EϱϬϭϮϭͲϰ ZĂŝůǁĂLJ ĂƉƉůŝĐĂƚŝŽŶ D ƌĂƚĞĚ
JetCon 2302
100Mbps
Fiber
100Mbps
Fiber
10/100TX 10/100TX
(DIP Switch-5 sets to OFF)
Switch Mode
Port 1 Port 3
Port 2 Port 4
100Mbps
Fiber
100Mbps
Fiber
(DIP Switch-5 sets to ON)
Converter Mode
10/100TX 10/100TX
Port 1 Port 3
Port 2 Port 4
Switch Mode works as a
plug--play switch with
Ϯ ϭϬͬϭϬϬdy ƉŽƌƚƐ ĂŶĚ Ϯ
100Mbps fiber ports.
Converter Mode works
as a 2-channel media
converter with isolated
traffic paths.
JetNet 3008 JetNet 3008f JetNet 2005 JetNet 2005f JetCon 2302
ϴ hŶŵĂŶĂŐĞĚ ϲнϮ hŶŵĂŶĂŐĞĚ ϱ hŶŵĂŶĂŐĞĚ ϰнϭ hŶŵĂŶĂŐĞĚ ϮнϮ hŶŵĂŶĂŐĞĚ
Interface
ϭϬͬϭϬϬdy WŽƌƚƐ 8 6 5 4 2
Fiber Ports
Ϯ dž ϭϬϬyͬ ^
2km (3008f-m)
30km (3008f-s)
ϭ dž ϭϬϬyͬ ^
2km (2005f-m)
30km (2005f-s)
Ϯ dž ϭϬϬyͬ ^
2km (2302-m)
30km (2302-s)
DI / DO ( Dry Relay) 1 DO 1 DO 1 DO 1 DO 1 DO
Power Input 2 x DC 24V (10~60V) 2 x DC 24V (10~60V) 1 x DC 24V (18~36V) 1 x DC 24V (18~36V) 2 x DC 24V (10~60V)
Hi-Pot AC 1.5KV AC 1.5KV AC 1.5KV AC 1.5KV AC 1.5KV
Feature
QoS traffic priotity 2 Queues 2 Queues
Broadcast Storm Filtering භ භ
Port/ Power Event Alarm භ භ Port Alarm Port Alarm භ
Jumbo frame
,tͬD
Housing Protection (IP) IP 31 Aluminum IP 31 Aluminum IP 31 Aluminum IP 31 Aluminum IP 31 Aluminum
Dimension (H x W x D mm) 120 x 55 x 108 120 x 55 x 108 111.8 x 30 x 98.2 111.8 x 30 x 98.2 120 x 55 x 99
Mounting DIN Rail DIN Rail DIN Rail DIN Rail Din Rail
Operating Temperature
-25~70°C
-40~75°C (-w)
-10~70°C
-40~75°C (-w)
-25~70°C
-40~70°C (-w)
-10~70°C
-40~70°C (-w)
-25~75°C
-40~75°C (-w)
MTBF (hrs) 1,285,000 903,000 3,137,000 510,000 813,000
ĞƌƟĮĐĂƚĞͬŽ
Regulatory Approval CE/ FCC CE/ FCC CE/ FCC /UL508 CE/ FCC /UL508 CE/ FCC
RoHS/REACH භ භ භ භ භ
Vertical Market
Heavy Industry
EN50121-4 Railway
e-Mark Vehicle
Heavy Industry
EN50121-4 Railway
e-Mark Vehicle
Heavy Industry Heavy Industry
Heavy Industry
EN50121-4 EMC
rated
40A Beijer Electronics Group Company www.korenix.com
42. 41 A Beijer Electronics Group Companywww.korenix.com
Korenix PoE Concept
Hardened industrial EMC level, wide
operating temperature, fan-less,
steel or aluminum housing, vibration
and shock resistance ensures
reliable power feeding in harsh
environments.
PSE Reliability.
Configurable Power Budget, limiting
the total power consumption for
all connected PDs, helps the power
allocation in an integrated system
and prevents over-consumption
during system operation.
Budget Control.
PoE
Power Redundancy.
Connecting the Dual Power Inputs
into a main source and a backup
source, the power seamlessly
transfers to the backup source
without any interruption when the
main one fails.
The built-in Power Booster makes
PoE deployment easy at where 48V
is not available such as train (110V),
bus (24V), and car (12V).
Onboard PoE.
Supports 802.at and
802.3af standard driving
PoE more than 30W per
port, maximum 540W in
total per switch unit. It
even drives non-standard
PD by Force Powering.
Strong Drive.
A Helper Enhances System Reliability with Strong Drive
We take your system into consideration.
110volt
48volt
24volt
12volt
max
540W
43. 42A Beijer Electronics Group Company www.korenix.com
Link Reliability. PD Reliability.
Safe and Secure.
Patented MSR redundant ring
technology ensures a reliable
connection with 5ms failover
time on either Ethernet cables
or long distance fibers.
LPLD (Link Partner Line Detect)
does keep-alive checking on PD
every 10 seconds. It resets the
PoE port to restart the PD if the
PD fails.
Configurable Power Limitation
defines an upper bound of PoE
power on each port to ensure
personnel safety and to prevent
over consumption from a
malicious or malfunctioning PD.
Power
Limit
PoE scheduling turns on/off
a PD according to the user
defined schedule, 802.1AB
LLDP PoE negotiates with PD
to give power on demand.
I t ’s simp l y gr e en an d
efficient.
PoE On Demand.
.at
.af
Emergency Management.
Each port is given a PoE
priority, the lower priority PD
will be turned off to ensure
critical PD keeps working in
case of power supply failure
or ambient temperature
overheat.
Critical (on)
High (on)
Low (off)
35
44. 43 A Beijer Electronics Group Companywww.korenix.com
Industrial 24(16/8) PoE + 4G Layer 2 Plus
High Power PoE Switch
ͻ ^ƵƉƉŽƌƚƐ ϴϬϮ͘ϯĂĨ͕ ϴϬϮ͘ϯĂƚ ϮͲĞǀĞŶƚ͕ ϴϬϮ͘ϯĂƚ W ĂŶĚ ŽƌĐĞ WŽǁĞƌŝŶŐ
ͻ ϯϬt WŽ ƉĞƌ ƉŽƌƚ͕ ƵƉ ƚŽ ϱϰϬt ŝŶ ƚŽƚĂů Λ ϲϱΣ
ͻ W ĨŽƌ W ŬĞĞƉ ĂůŝǀĞ ĐŚĞĐŬŝŶŐ ĂŶĚ ĂƵƚŽ ƌĞƐĞƚƐ ŝĨ W ĨĂŝůƐ
ͻ WŽ ƐĐŚĞĚƵůŝŶŐ ĂŶĚ W ĚLJŶĂŵŝĐ ƉŽǁĞƌŝŶŐ ŽŶ ĚĞŵĂŶĚ ŽĨ W
ͻ WŽ ĞŵĞƌŐĞŶĐLJ ŵĂŶĂŐĞŵĞŶƚ ďLJ WƌŝŽƌŝƚLJ WŽǁĞƌŝŶŐ
ͻ ĂƐLJ W /W ŵĂŝŶƚĞŶĂŶĐĞ ďLJ WŽƌƚ ĂƐĞĚ ,W ^ĞƌǀĞƌ
ͻ ^ƵƉƉŽƌƚ WŽǁĞƌ ŐŐƌĞŐĂƚŝŽŶ͕ WŽǁĞƌ ZĞĚƵŶĚĂŶĐLJ͕ ƵĚŐĞƚ ŽŶƚƌŽů
ͻ D^Z ƌĞĚƵŶĚĂŶƚ ƌŝŶŐ͕ ƌĞĐŽǀĞƌLJ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
ͻ ĂLJĞƌ Ϯ plus
security precisely controls every traffic in the network
ͻ ϵ :ƵŵďŽ ƌĂŵĞ ĞŶŚĂŶĐĞƐ EsZ ƉĞƌĨŽƌŵĂŶĐĞ
ͻ ĂŶůĞƐƐ͕ ŵĂdž ͲϮϱΕϲϱΣ operating temperature
JetNet 5728G-24P Series
Power
Redundancy
The three power inputs backup
with one another to enhance
reliability with double Power
Redundancy.
Emergency
Management
Assign PoE port with a priority,
the lower priority PD will be
shutdown to keep critical PD
working in case of power failure.
540W Huge
Power Budget
All the power inputs can be
ĂŐŐƌĞŐĂƚĞĚ ƚŽ ϲϬϬt Žƌ ŵŽƌĞ͕
ĂŶĚ ƚŽ ĚĞůŝǀĞƌ ϱϰϬt WŽ Λ
ϲϱΣ.
Per Port
Power Budget
Defines an upper bound of
the PoE output of each port to
prevent over consumption from
a malicious or malfunctioning
PD.
Embedded
300W
External
150W
External
150W
24 port high power PoE
KǀĞƌŚĞĂƚ WƌŽƚĞĐƟŽŶ
An embedded thermal sensor warns
of overheating. The PoE output of less
important ports will be reduced to
ensure critical PD functioning in abnormal
conditions.
critical
ĞĞƉ ǁŽƌŬŝŶŐ
Overheat
detected
Reducing output
High
Low priority
100
80
60
40
20
0
-20
46. 45 A Beijer Electronics Group Companywww.korenix.com
Train 8 PoE +2G Managed High Power PoE Switch
ͻ Ϯϰs Žƌ ϭϭϬs ƉŽǁĞƌ ŝŶƉƵƚ ƚŽ ϱϳsͬϰϴs ŚŝŐŚ ƉŽǁĞƌ WŽ
ͻ DϭϮ Žƌ ZƵŐŐĞĚ Z:ϰϱ ĐŽŶŶĞĐƚŽƌ ĨŽƌ ǀŝďƌĂƚŝŽŶ ĂŶĚ ƐŚŽĐŬ
ͻ ^ƵƉƉŽƌƚƐ WŽ /ϴϬϮ͘ϯĂĨ͕ ϴϬϮ͘ϯĂƚ W ĂŶĚ ŽƌĐĞ WŽǁĞƌŝŶŐ
ͻ ϯϬt WŽ ƉĞƌ ƉŽƌƚ͕ ϭϮϬt ŝŶ ƚŽƚĂů
ͻ W ĨŽƌ W ŬĞĞƉ ĂůŝǀĞ ĐŚĞĐŬŝŶŐ ĂŶĚ ĂƵƚŽ ƌĞƐĞƚƐ ŝĨ W ĨĂŝůƐ
ͻ WŽ ƐĐŚĞĚƵůŝŶŐ ĂŶĚ W ĚLJŶĂŵŝĐ ƉŽǁĞƌŝŶŐ ŽŶ ĚĞŵĂŶĚ ŽĨ W
ͻ WŽ ĞŵĞƌŐĞŶĐLJ ŵĂŶĂŐĞŵĞŶƚ ďLJ ƉŽƌƚͲďĂƐĞĚ WƌŝŽƌŝƚLJ WŽǁĞƌŝŶŐ
ͻ ĂƐLJ W /W ŵĂŝŶƚĞŶĂŶĐĞ ďLJ WŽƌƚ ĂƐĞĚ ,W ^ĞƌǀĞƌ
ͻ ^ƵƉƉŽƌƚƐ WŽǁĞƌ ŐŐƌĞŐĂƚŝŽŶ͕ WŽǁĞƌ ZĞĚƵŶĚĂŶĐLJ͕ ƵĚŐĞƚ ŽŶƚƌŽů
ͻ D^Z ƌĞĚƵŶĚĂŶƚ ƌŝŶŐ͕ ƌĞĐŽǀĞƌLJ ф ϱŵƐ͕ ƌĞƐƚŽƌĂƚŝŽŶ с ϬŵƐ
JetNet 6810G-M12, JetNet 6810G-RJ
JetNet 6710G-M12 HVDC
KǀĞƌŚĞĂƚ WƌŽƚĞĐƟŽŶ PD Keep-Alive Check
An embedded thermal sensor warns of
overheating. The PoE output of less important
ports will be reduced to ensure critical PD
functioning in abnormal conditions.
LPLD does a keep-alive check on PD periodically
and resets the PoE port to bring the PD back to
life if a PD failure is detected.
ĞƌƟĮĐĂƚĞ ŽĨ ZĂŝůǁĂLJ
EN 50121-4, IEC 61373
Train Power Input
Proven to sustain the strong
EMC inter ference and
heavy, long term vibration,
ŽƌĞŶŝdž͛Ɛ WŽ ĐŽŶĐĞƉƚ
further enhances the system
reliability on a train.
Accepts 24V or 110V power on the train
ĂŶĚ ƚƌĂŶƐĨŽƌŵƐ ƚŽ ϱϳs ŚŝŐŚ ƉŽǁĞƌ WŽ͘ dŚĞ
Hi-pot isolation of the DC booster protects
the device from surge, and ensures passenger
isolated safety.
critical
ĞĞƉ ǁŽƌŬŝŶŐ
Overheat
detected
Reducing output
High
Low priority
100
80
60
40
20
0
-20
48~57V
24V
110V
30W
PoE
EŽ ƌĞƐƉŽŶƐĞ ;ĂŝůĞĚͿ
Alive check
Reset the PoE port and
Send Event Warning
55. Industrial PoE / PoE Plus Switch
54A Beijer Electronics Group Company www.korenix.com
JetNet 3710G JetNet 3906G-w JetNet 3705 JetNet 3705f
Giga PoE switch Full Giga PoE+ Switch PoE Switch PoE Switch
Interface
10/100TX Ports 8 5 4
10/100/1000TX Ports 2 5
ŝďĞƌ WŽƌƚƐ ϭ dž ϭϬϬͬϭϬϬϬ ^W
ϭ dž ϭϬϬyͬ^
ϮŬŵ ;ϯϳϬϱĨͲŵͿ
ϯϬŬŵ ;ϯϳϬϱĨͲƐͿ
DI/DO 1 x DO 1 x DO 1 x DO 1 x DO
Power Input 48VDC Ϯ dž ϭϮΕϯϲs
2 x 48VDC (Termial
ůŽĐŬͿͬϭ dž ϰϴs
; :ĂĐŬͿ
2 x 48VDC (Termial
ůŽĐŬͿͬϭ dž ϰϴs
; :ĂĐŬͿ
HiPot ϭ͘ϱs ϭ͘ϱs ϭ͘Ϯs ϭ͘Ϯs
Power Over Ethernet
PoE Ports 8 4 4 4
PoE Wiring (A: Data Pins/
͗ ^ƉĂƌĞ WŝŶƐͿ
ϰ͕ϱ͕ϳ͕ϴ ;Ϳ ϭ͕Ϯ͕ϯ͕ϲ ; Ϳ ϰ͕ϱ͕ϳ͕ϴ ;Ϳ ϰ͕ϱ͕ϳ͕ϴ ;Ϳ
PoE modes 802.3af 802.3at/802.3af 802.3af 802.3af
PoE Power Per Port 15.4W 30/15.4W 15.4W 15.4W
dŽƚĂů WŽǁĞƌ ƵĚŐĞƚ ϲϱt Λϰϴs͕ ϳϬΣ
ϭϮϬt ΛϮϰs͕ ϲϬΣ
ϴϬt ΛϮϰs͕ ϳϱΣ
ϲϬt Λϰϴs͕ ϳϬΣ ϲϬt Λϰϴs͕ ϳϬΣ
Feature
WŽ WŽǁĞƌ ŽŽƐƚ ϭϮΕϯϲs
QoS Traffic priority භ භ
WŽƌƚͬWŽǁĞƌ ĂŝůƵƌĞ ůĂƌŵ Port Port , Power Port , Power Port , Power
:ƵŵďŽ ĨƌĂŵĞ ϵďLJƚĞƐ
HW/ME
Housing Protection (IP) IP31 Aluminum IP31 Steel Metal IP31 Aluminum IP31 Aluminum
Dimension (H x W x D mm) ϭϰϵ dž ϲϲ dž ϭϯϭ͘Ϯ 140 x 45 x 105 ϭϬϴ džϭϲϰ͘ϴ dž ϯϯ͘ϴ ϭϬϴ džϭϲϰ͘ϴ dž ϯϯ͘ϴ
Mounting /E ƌĂŝů /E ZĂŝů /E ZĂŝů /E ZĂŝů
Operating Temperature ͲϮϱ Ε ϳϬΣ ͲϰϬ Ε ϳϱΣ ͲϮϬ Ε ϳϬΣ ͲϭϬ Ε ϳϬΣ
Dd ;ŚƌƐͿ 200,000 200,000 200,000 200,000
ĞƌƟĮĐĂƚĞ
Regulatory Approval ͬ ͬ h ͬ ͬ h ͬ ͬ h ͬ ͬ h
RoHS/WEEE භ භ භ භ
Vertical Market
Heavy Industry
ED d^Ϯ ŽŵƉůŝĂŶƚ
56. 55 A Beijer Electronics Group Companywww.korenix.com
Multi-RF High Speed
DistinctTripleRFsolutionwithincomparableperformance
for outdoor and industrial applications.
Triple RF, Dual Band
'ůŽďĂů ŝƐƟŶĐƚ ^ŽůƵƟŽŶ
A Triple RF solution is available in addition
to single RF and dual RF models. Each RF
module is IEEE802.11 a/b/g/n and 2.4G/5G
band configurable, offering the best possible
topology for all demands.
/ŶĐŽŵƉĂƌĂďůĞ
,ŝŐŚ WĞƌĨŽƌŵĂŶĐĞ
The powerful CPU empowers an incomparable
high speed data transmission up to 350Mbps
among the three RF and gigabit Ethernet
interfaces.
Wider Range
ĞƩĞƌ ^ŝŐŶĂů YƵĂůŝƚLJ
Up to 21dBm strong TX power and -95dBm
high RX sensitivity. Combined with the high
gain fiberglass antennas, JetWave 2800/2700
is capable of covering a wider range without
compromising signal quality.
ϮdžϮ D/DK dĞĐŚŶŽůŽŐLJ
Doubles Data Rate
Each RF module has two antennas. With
MIMO (Multi-Input, Multi-Output) enabled,
each antenna simultaneously transmits and
receives data which increases the throughput
significantly.
Industrial
JetWave 2700 Series
Outdoor
JetWave 2800 Series
57. 56A Beijer Electronics Group Company www.korenix.com
Wireless AP
,ŝŐŚ ĂƉĂĐŝƚLJ DƵůƟƉůĞ ,ŽƉƉŝŶŐ
20 ms seamless handover, up to 120Mbps throughput for 120km/h high speed moving trains or
vehicles. (JetWave 2800-M)
ϮϬŵƐ ^ƵƉĞƌ ZŽĂŵŝŶŐ
802.11n, dual 5G, 2x2 MIMO
120MbpsRF1 RF1
120MbpsRF2 RF2
RF3: 2.4G Local coverageRF3: 2.4G Local coverage
140~160 Mbps
130~150 Mbps
130~150 Mbps
130~150 Mbps
120~140 Mbps
120~140 Mbps
120~140 Mbps
120~130 Mbps
120~130 Mbps
120~130 Mbps
120 Mbps
120 Mbps
120 Mbps
120 Mbps
120 Mbps
120 Mbps
140~160 Mbps
140~160 Mbps
RF1
RF2
RF3
RF1 RF2 RF1 RF2 RF1 RF2 RF1 RF2 RF1 RF2
350Mbps
Core AP
Create three multiple-hopping paths with minimum 120Mbps throughput on the way and max 350
Mbps at core. (JetWave 2800-H)
ƵĂůͬZĞĚƵŶĚĂŶƚ Z ĨŽƌ ,ŝŐŚ ^ƉĞĞĚ ĂĐŬŚĂƵů
ϮϬŵƐ
500 m 500 m
Gigabit Ethernet
Client ϭϮϬ ŬŵͬŚ
58. 57 A Beijer Electronics Group Companywww.korenix.com
KƵƚĚŽŽƌ DƵůƟͲZ ϴϬϮ͘ϭϭĂͬďͬŐͬŶ tŝƌĞůĞƐƐ W
ͻ ^ŝŶŐůĞͬƵĂůͬdƌŝƉůĞ Z ĐŽŶĨŝŐƵƌĂďůĞ͗ ϴϬϮ͘ϭϭĂͬďͬŐͬŶ ĂŶĚ Ϯ͘ϰ'ͬϱ'
ͻ ^ƵƉĞƌď ƉĞƌĨŽƌŵĂŶĐĞ͗ ϯ Z ǁŝƚŚ ϭ 'ď ƵƉ ƚŽ ϯϱϬDďƉƐ
ͻ ^ƚƌŽŶŐ dy ŽƵƚƉƵƚ ƉŽǁĞƌ ĞdžƚĞŶĚƐ ĚŝƐƚĂŶĐĞ ĂŶĚ ĐŽǀĞƌĂŐĞ
ͻ ,ŝŐŚ Zy ƐĞŶƐŝƚŝǀŝƚLJ ĞŶŚĂŶĐĞƐ ƌĞĐĞŝǀŝŶŐ ƐŝŐŶĂů ƋƵĂůŝƚLJ
ͻ ϮdžϮ D/DK ĚŽƵďůĞƐ ĚĂƚĂ ƌĂƚĞ
ͻ ^ƵƉƉŽƌƚƐ ^ƵƉĞƌ ZŽĂŵŝŶŐ͕ DĞƐŚ͕ ĂŶĚ DŽďŝůŝƚLJ ŵŽĚĞ ;ϮϴϬϬͲDͿ
ͻ ^ƵƉƉŽƌƚƐ ŚŝŐŚ ƉĞƌĨŽƌŵĂŶĐĞ ŵƵůƚŝƉůĞ ŚŽƉƉŝŶŐ ŵŽĚĞ ;ϮϴϬϬͲ,Ϳ
ͻ tŝƌĞůĞƐƐ YŽ^ ;tDDͿ ĨŽƌ ǀŝĚĞŽ ƉƌĞĐĞĚĞŶĐĞ ƚƌĂŶƐŵŝƐƐŝŽŶ
ͻ ,ŝŐŚ ŐĂŝŶ ǁĞĂƚŚĞƌƉƌŽŽĨ ĨŝďĞƌŐůĂƐƐ ĂŶƚĞŶŶĂ ďLJ ƐĞůĞĐƚŝŽŶ
ͻ 'ŝŐĂďŝƚ WŽ ƉŽǁĞƌ ŝŶƉƵƚ͕ WŽ ŝŶũĞĐƚŽƌ ŝŶĐůƵĚĞĚ
ͻ /Wϲϳ ĂůƵŵŝŶƵŵ ŚŽƵƐŝŶŐ͕ ͲϯϬΕϳϬΣ ŽƵƚĚŽŽƌ ƐŽůƵƚŝŽŶ
JetWave 2810
JetWave 2820
JetWave 2830
KƵƚĚŽŽƌ͕ ^ŝŶŐůĞ Z tŝƌĞůĞƐƐ W
KƵƚĚŽŽƌ͕ ƵĂů Z tŝƌĞůĞƐƐ W
KƵƚĚŽŽƌ͕ dƌŝƉůĞ Z tŝƌĞůĞƐƐ W
JetWave 2800 Series
/ŶĚƵƐƚƌŝĂů DƵůƟͲZ ϴϬϮ͘ϭϭĂͬďͬŐͬŶ tŝƌĞůĞƐƐ W
ͻ ^ŝŶŐůĞͬƵĂůͬdƌŝƉůĞ Z ĐŽŶĨŝŐƵƌĂďůĞ͗ ϴϬϮ͘ϭϭĂͬďͬŐͬŶ ĂŶĚ Ϯ͘ϰ'ͬϱ'
ͻ ^ƵƉĞƌď ƉĞƌĨŽƌŵĂŶĐĞ͗ ϯ Z ǁŝƚŚ Ϯ 'ď ƵƉ ƚŽ ϯϱϬDďƉƐ
ͻ ^ƚƌŽŶŐ dy ŽƵƚƉƵƚ ƉŽǁĞƌ ĞdžƚĞŶĚƐ ĚŝƐƚĂŶĐĞ ĂŶĚ ĐŽǀĞƌĂŐĞ
ͻ ,ŝŐŚ Zy ƐĞŶƐŝƚŝǀŝƚLJ ĞŶŚĂŶĐĞƐ ƌĞĐĞŝǀŝŶŐ ƐŝŐŶĂů ƋƵĂůŝƚLJ
ͻ ϮdžϮ D/DK ĚŽƵďůĞƐ ĚĂƚĂ ƌĂƚĞ
ͻ ^ƵƉƉŽƌƚƐ ^ƵƉĞƌ ZŽĂŵŝŶŐ͕ DĞƐŚ ĂŶĚ DŽďŝůŝƚLJ ŵŽĚĞ ;ϮϳϬϬͲDͿ
ͻ ^ƵƉƉŽƌƚƐ ŚŝŐŚ ƉĞƌĨŽƌŵĂŶĐĞ ŵƵůƚŝƉůĞ ŚŽƉƉŝŶŐ ŵŽĚĞ ;ϮϳϬϬͲ,Ϳ
ͻ tŝƌĞůĞƐƐ YŽ^ ;tDDͿ ĨŽƌ ǀŝĚĞŽ ƉƌĞĐĞĚĞŶĐĞ ƚƌĂŶƐŵŝƐƐŝŽŶ
ͻ ,ŝŐŚ ŐĂŝŶ ǁĞĂƚŚĞƌƉƌŽŽĨ ĨŝďĞƌŐůĂƐƐ ĂŶƚĞŶŶĂ
ͻ 'ŝŐĂďŝƚ WŽ ƉŽǁĞƌ ŝŶƉƵƚ͕ WŽ ŝŶũĞĐƚŽƌ ŝŶĐůƵĚĞĚ
JetWave 2710
JetWave 2720
JetWave 2730
/ŶĚƵƐƚƌŝĂů͕ ^ŝŶŐůĞ Z tŝƌĞůĞƐƐ W
/ŶĚƵƐƚƌŝĂů͕ ƵĂů Z tŝƌĞůĞƐƐ W
/ŶĚƵƐƚƌŝĂů͕ dƌŝƉůĞ Z tŝƌĞůĞƐƐ W
JetWave 2700 Series * Coming soon