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PLANET IGTP-805AT Industrial Media Converter 1000BASE-X to 10/100/1000BASE-T 802.3at PoE+
9.100,00 EGP9.100,00 EGP×
PLANET Industrial IGS-20160HPT Managed Ethernet Switch L3 16-Port 10/100/1000T 802.3at PoE + 2-Port 10/100/1000T + 2-Port 1G/2.5G SFP
IGS20160HPT – PLANET Industrial L3 16-Port 10/100/1000T 802.3at PoE + 2-Port 10/100/1000T + 2-Port 1G/2.5G SFP Managed Ethernet Switch
55.120,00 EGP 14% inc VAT
Contact us on WhatsApp Buy NowAdvanced Manageable PoE Solution for Hardened Environment
PLANET IGS-20160HPT L3 Industrial Managed PoE+ Switch, featuring 16 10/100/1000BASE-T 802.3at PoE+ ports with each port powering up to 36 watts, 2 10/100/1000BASE-T RJ45 ports, and 2 100/1000/2500BASE-X SFP ports in an IP30 rugged metal case, can be installed in any difficult environment. It provides user-friendly yet advanced IPv6/IPv4 management interfaces, abundant L2/L4 switching functions, Layer 3 OSPFv2 dynamic routing capability, and advanced ITU-G.8032 ERPS Ring technology to improve the rapid self-recovery capability and PLANET intelligent PoE functions for controlling the PoE outdoor IP surveillance and wireless network applications. It is able to operate reliably, stably and quietly in the temperature range from -40 to 75 degrees C.
High Power PoE for Security and Public Service Applications
As the whole system comes with a total 360-watt PoE budget, the IGS-20160HPT is designed specifically to satisfy the growing demand of higher power consuming network PDs (powered devices) such as multi-channel (802.11a/b/g/n) wireless LAN access points, PTZ (pan, tilt, zoom) speed dome network cameras and other PoE network devices.
Intelligent Alive Check for Powered Device
The IGS-20160HPT can be configured to monitor connected PD’s status in real time via ping action. Once the PD stops working and responding, the IGS-20160HPT will recycle the PoE port power and bring the PD back to work. It also greatly enhances the reliability in that the PoE port will reset the PD power, thus reducing administrator’s management burden.
PoE Schedule for Energy Savings
Under the trend of energy savings worldwide and contributing to environmental protection on the Earth, the IGS-20160HPT can effectively control the power supply besides its capability of giving high watts power. The built-in “PoE schedule” function helps you to enable or disable PoE power feeding for each PoE port during specified time intervals and it is a powerful function to help SMBs or enterprises save power and money.
Scheduled Power Recycling
The IGS-20160HPT allows each of the connected PoE IP cameras or PoE wireless access points to reboot at a specific time each week. Therefore, it will reduce the chance of IP camera or AP crash resulting from buffer overflow.
Convenient and Smart ONVIF Devices with Detection Feature
PLANET has developed an awesome feature — ONVIF Support — which is specifically designed for co-operating with video IP surveillances. From the IGS-20160HPT GUI, clients just need one click to search and show all of the ONVIF devices via network application. In addition, clients can upload floor images to the switch series, making the deployments of surveillance and other devices easy for planning and inspection purposes. Moreover, clients can get real-time surveillance’s information and online/offline status; the PoE reboot can be controlled from the GUI.
Redundant Ring, Fast Recovery for Critical Network Applications
The IGS-20160HPT supports redundant ring technology and features strong, rapid self-recovery capability to prevent interruptions and external intrusions. It incorporates advanced ITU-T G.8032 ERPS (Ethernet Ring Protection Switching) technology, Spanning Tree Protocol (802.1s MSTP), and redundant power input system into customer’s industrial automation network to enhance system reliability and uptime in harsh factory environments. In a simple Ring network, the recovery time of data link can be as fast as 10ms.
1588 Time Protocol for Industrial Computing Networks
The IGS-20160HPT is ideal for telecom and Carrier Ethernet applications, supporting MEF service delivery and timing over packet solutions for IEEE 1588 and synchronous Ethernet.
Layer 3 Dynamic Routing Support
The IGS-20160HPT allows administrators to boost network efficiency by configuring Layer 3 IPv4/IPv6 VLAN static routing manually or automatically through the Routing Information Protocol (RIP) or Open Shortest Path First (OSPF) settings.
- The RIP uses hop count as a routing metric and prevents routing loops by setting a limit on the number of hops allowed in a path from source to destination.
- The OSPF is an interior dynamic routing protocol for autonomous systems based on link state. The protocol creates a database of link states by exchanging link states among Layer 3 switches and then uses the Shortest Path First algorithm to generate a route table based on that database.
Cybersecurity Network Solution to Minimize Security Risks
The IGS-20160HPT supports SSHv2 and TLSv1.2 protocols to provide strong protection against advanced threats. It includes a range of cybersecurity features such as DHCP Snooping, IP Source Guard, ARP Inspection Protection, 802.1x port-based and MAC-based network access control, RADIUS and TACACS+ user accounts management, SNMPv3 authentication, and so on to complement it as an all-security solution.
| Hardware Specifications | |
| Version | 4 |
| Copper Ports | 18 10/100/1000BASE-T RJ45 auto-MDI/MDI-X ports |
| SFP/mini-GBIC Slots | 2 1000/2500BASE-X SFP interfaces (Port-19 and Port-20) |
| Compatible with 100BASE-FX SFP | |
| PoE Injector Port | 16 ports with 802.3at/af PoE injector function with Port-1 to Port-16 |
| Console | 1 x RJ45-to-RS232 serial port (115200, 8, N, 1) |
| Reset Button | < 5 sec: System reboot |
| > 5 sec: Factory default | |
| ESD Protection | 6KV DC |
| Enclosure | IP30 aluminum case |
| Installation | DIN-rail kit and wall-mount kit |
| Connector | Removable 6-pin terminal block for power input |
| Pin 1/2 for Power 1, Pin 3/4 for fault alarm, Pin 5/6 for Power 2 | |
| Removable 6-pin terminal block for DI/DO interface | |
| Pin 1/2 for DI 1 & 2, Pin 3/4 for DO 1 & 2, Pin 5/6 for GND | |
| Alarm | One relay output for power failure. Alarm relay current carry ability: 1A @ 24V DC |
| DI, DO | 2 digital input (DI) |
| Level 0: -24V~2.1V (±0.1V) | |
| Level 1: 2.1V~24V (±0.1V) | |
| Input load to 24V DC, 10mA max. | |
| 2 digital output (DO) | |
| Open collector to 24V DC, 100mA max. | |
| Dimensions (W x D x H) | 86 x 107 x 152 mm |
| Weight | 1548g |
| Power Requirements | Dual 48~54V DC (>51V DC for PoE+ output recommended) |
| Power Consumption | Max.18.8 watts/64BTU (Power on without any connection) |
| Max. 413 watts/1409BTU (Full loading with PoE function) | |
| LED Indicator | System: |
| Power 1 (Green) | |
| Power 2 (Green) | |
| Fault Alarm (Red) | |
| Ring (Green) | |
| Ring Owner (Green) | |
| DIDO (Red) | |
| Per 10/100/1000T RJ45 PoE+ Ports: | |
| PoE-in-Use (Amber) | |
| LNK/ACT (Green) | |
| Per 10/100/1000T RJ45Ports: | |
| 1000 LNK/ACT (Green) | |
| 100 LNK/ACT (Amber) | |
| Per SFP Interface: | |
| 10/100 LNK/ACT (Amber) | |
| 1G/2.5G LNK/ACT (Green) | |
| Switching | |
| Switch Architecture | Store-and-Forward |
| Switch Fabric | 46Gbps/non-blocking |
| Throughput (packet per second) | 34.2Mpps@ 64 bytes packet |
| Address Table | 32K entries, automatic source address learning and aging |
| Shared Data Buffer | 32Mbits |
| Flow Control | IEEE 802.3x pause frame for full duplex |
| Back pressure for half duplex | |
| Jumbo Frame | 10K bytes |
| Power Over Ethernet | |
| PoE Standard | IEEE 802.3at Power over Ethernet Plus/PSE |
| PoE Power Supply Type | End-span |
| PoE Power Output | IEEE 802.3af Standard |
| Per port 48V~51V DC (depending on the power supply), max. 15.4 watts | |
| IEEE 802.3at Standard | |
| Per port 51V~54V DC (depending on the power supply), max. 36 watts | |
| Power Pin Assignment | 1/2(+), 3/6(-) |
| PoE Power Budget | 48V Power input |
| 240W maximum (depending on power input) | |
| 52~54V Power input | |
| Single power input: 240W maximum (depending on power input) | |
| Dual power input: 360W maximum (depending on power input) | |
| ※Dual power input must be the same as DC voltage, like dual 54V | |
| Max. Number of Class 2 PDs | 16 |
| Max. Number of Class 3 PDs | 16 |
| Max. Number of Class 4 PDs | 10 |
| Layer 3 Functions | |
| IP Interfaces | Max. 128 VLAN interfaces |
| Routing Table | Max. 128 routing entries |
| Max. 4K H/W routing table entries | |
| Routing Protocols | IPv4 RIPv1/v2 |
| IPv4 OSPFv2 | |
| IPv4 hardware static routing | |
| IPv6 OSPFv3 | |
| hardware static routingIPv4 OSPFv2 dynamic routing | |
| Layer 2 Function | |
| Port Configuration | Port disable/enable |
| Auto-negotiation 10/100/1000Mbps full and half duplex mode selection | |
| Flow control disable/enable | |
| Power saving mode control | |
| Port Status | Display each port’s speed duplex mode, link status, flow control status, |
| auto negotiation status, trunk status | |
| Port Mirroring | TX / RX / Both |
| Many-to-1 monitor | |
| RMirror – Remote Switched Port Analyzer (Cisco RSPAN) | |
| Supports up to 5 sessions | |
| VLAN | IEEE 802.1Q tag-based VLAN |
| IEEE Q-in-Q tunneling | |
| Private VLAN Edge (PVE) | |
| MAC-based VLAN | |
| Protocol-based VLAN | |
| VLAN Translation | |
| Voice VLAN | |
| MVR (Multicast VLAN Registration) | |
| GVRP | |
| Up to 4K VLAN groups, out of 4094 VLAN IDs | |
| Link Aggregation | IEEE 802.3ad LACP/static trunk |
| Supports 10 trunk groups with 16 ports per trunk group | |
| Spanning Tree Protocol | IEEE 802.1D Spanning Tree Protocol |
| IEEE 802.1w Rapid Spanning Tree Protocol | |
| IEEE 802.1s Multiple Spanning Tree Protocol | |
| Supports 7 MSTP instances | |
| BPDU Guard, BPDU filtering and BPDU transparent | |
| Root Guard | |
| IGMP Snooping | IPv4 IGMP (v1/v2/v3) snooping |
| IPv4 IGMP querier mode support | |
| Up to 255 multicast groups | |
| MLD Snooping | IPv6 MLD (v1/v2) snooping |
| IPv6 MLD querier mode support | |
| Up to 255 multicast groups | |
| Bandwidth Control | Per port bandwidth control |
| Ingress: 500Kb~1000Mbps | |
| Egress: 500Kb~1000Mbps | |
| Ring | Supports ERPS, and complies with ITU-T G.8032 |
| Recovery time < 10ms @ 3 nodes | |
| Recovery time < 50ms @ 16 nodes | |
| Supports Major ring and sub-ring | |
| Synchronization | IEEE 1588v2 PTP (Precision Time Protocol) |
| Peer-to-peer transparent clock | |
| End-to-end transparent clock | |
| QoS | Traffic classification based, strict priority and WRR |
| 8-level priority for switching | |
| Port number | |
| 802.1p priority | |
| 802.1Q VLAN tag | |
| DSCP/TOS field in IP packet | |
| Security Functions | |
| Access Control List | IP-based ACL/MAC-based ACL |
| ACL based on: | |
| MAC Address | |
| IP Address | |
| Ethertype | |
| Protocol Type | |
| VLAN ID | |
| DSCP | |
| 802.1p Priority | |
| Up to 256 entries | |
| Security | Port Security |
| IP source guard, up to 512 entries | |
| Dynamic ARP inspection, up to 1K entries | |
| Command line authority control based on user level | |
| Static MAC address, up to 64 entries | |
| AAA | RADIUS client |
| TACACS+ client | |
| Network Access Control | IEEE 802.1x port-based network access control |
| MAC-based authentication | |
| Local/RADIUS authentication | |
| Switch Management | |
| Basic Management Interfaces | Console; Telnet; Web browser; SNMP v1, v2c |
| Secure Management Interfaces | SSHv2, TLS v1.2, SNMP v3 |
| System Management | Firmware upgrade by HTTP protocol through Ethernet network |
| Configuration upload/download through HTTP | |
| Remote syslog | |
| System log | |
| LLDP protocol | |
| NTP | |
| PLANET Smart Discovery Utility | |
| PLANET NMS system | |
| PLANETCloudViewer/CloudViewerPro | |
| Event Management | Remote syslog |
| Local system log | |
| SMTP | |
| ONVIF | ONVIF device discovery |
| ONVIF device monitoring | |
| Floor Map | |
| SNMP MIBs | RFC 1213 MIB-II |
| RFC 2863 IF-MIB | |
| RFC 1493 Bridge MIB | |
| RFC 1643 Ethernet MIB | |
| RFC 2863 Interface MIB | |
| RFC 2665 Ether-Like MIB | |
| RFC 2737 Entity MIB | |
| RFC 2819 RMON MIB (Groups 1, 2, 3 and 9) | |
| RFC 2618 RADIUS Client MIB | |
| RFC 3411 SNMP-Frameworks-MIB | |
| RFC 4292 IP Forward MIB | |
| RFC 4293 IP MIB | |
| RFC 4836 MAU-MIB | |
| IEEE 802.1X PAE | |
| LLDP | |
| Power over Ethernet MIB | |
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