IDS-710HP
- 8 x 10/100/1000Mbps PoE 802.3bt Ethernet Ports with 450W of available power
- 2 x SFP Slots supporting 1G/2.5G Fiber or 10/100/1000Base-T
- PROFINET and Modbus TCP protocols supported for monitoring and device management
- Ring Protocol MRP (IEC 62439-2) has <10ms recovery time
- STP/RSTP/MSTP for network redundancy
- Advanced Security and IT management features: TACACS+, RADIUS, 802.1x, SSH, SNMPv3, and HTTPS
IEEE 1588 V1 and V2 PTP for microsecond accuracy - Advanced protocols to optimize the performance and intelligence of the network: IGMP Snooping, LLDP-MED, GVRP, Voice VLANs, MSTP, GMRP, and IPv6 MLD Snooping
Overview
The IDS-710HP is a 10 port Managed Ethernet Switch that can operate in industrial environments providing advanced performance and enabling real-time deterministic network operation. Eight 10/100/1000-Base-T Ethernet ports are available for networking Gigabit and Fast Ethernet devices. The two SFP slots support 10/100/1000 on Copper or 1G/2.5G on Fiber.
In addition to transmitting network data, a the IDS-710HP has a built-in Power over Ethernet injector to supply up to 100W Power over Ethernet (PoE Type 3 & Type 4) per port for a total of 450W across all 8 ports. This is ideal for powering standards-based 802.3af, 802.3at, and 802.3bt compliant devices such as such as pan-tilt-zoom (PTZ) security cameras with heaters, 802.11ax/ac wireless access points, alarms, traffic controllers, sensors, and tracking devices. Classified as Layer 2 Power Sourcing Equipment (PSE), the switch will detect if connected devices are POE-compatible and automatically supply power. Using a PoE Switch saves on installation and maintenance costs by eliminating the need to install multiple pieces of equipment, additional electrical wires, and outlets. This flexibility allows for easy adaptation to network growth and changes.
The SFP slots allow for flexible network configurations using SFP transceivers supplied by Perle, Cisco or other manufacturers of MSA compliant SFPs. In addition, they make utilizing fiber is easy in environments where high levels of electromagnetic interference (EMI) is a common phenomenon, like industrial plants. This interference can cause data corruption over copper-based Ethernet links. However, data transmitted over fiber optic cable is completely immune to this type of noise ensuring optimal data transmission across the plant floor.
Perle Industrial-grade Ethernet Switches are designed to stand up to extreme temperatures, surges, vibrations, and shocks found in industrial automation, government, military, oil and gas, mining and outdoor applications. These rugged fan-less switches are hardened to provide superior reliability in -10 to 60°C. Or, choose the IDS-710HP-XT, where every component has been designed and tested to handle operating temperatures between -40 and 70°C.
The simple Plug and Play installation available in Perle’s Fast Setup feature gets your Ethernet devices networked immediately. The familiar Command Line Interface (CLI), via in-band Telnet or the out-band serial console port, will be appreciated by CCNA (Cisco Certified Network Associate) and CCNP (Cisco Certified Network Professional) trained engineers.
The IDS-710 Managed Switches have Enterprise-grade features for environments where extensive security, QoS, and network integration functionality is required. They can be managed with an IPv6 address and supports a comprehensive set of management functions including MRP (IEC62439-2), PROFINET, Modbus TCP, management VLAN, Management Access Lists, Password Strength requirements, RMON, N:1 port mirroring, and local alert log.
All Perle Industrial Ethernet Switches only use high-end components from the leading chip manufacturers to ensure the highest level of durability and reliability. In addition, all units have a corrosion resistance aluminum case and dual redundant power input with reverse polarity and overload protection.
Perle has been designing industrial hardware since 1976. We used this expertise to design the toughest Ethernet switches on the market that will keep your system running for years to come.
IDS-710 Industrial Managed DIN Rail Switch Features
| Power Over Ethernet (PSE) | Fully Compliant with IEEE 802.3bt Type 3 and 4 PSE Performs the Power Sourcing Equipment (PSE) function on 1 or 2 UTP ports for IEEE 802.3bt compliant devices. All models support Type 1 (PoE), Type 2 (PoE+), Type 3 (Hi-PoE) and Type 4 (Hi-PoE) PD gear |
| Advanced Power Management |
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| PD Power Reset | Ideal for remotely resetting equipment, this configurable function performs a power reset to attached Powered Devices (PDs). This is achieved by disabling and then re-enabling PoE on the desired Ethernet copper port. |
| Powered Device Support | Type: 1, 2, 3, and 4 PDs Class: 1, 2, 3, 4, 5, 6, 7, 8 PDs Supports both Single-Signature and Dual-Signature PD connections |
| Simple deployment | Zero-touch discovery using Dynamic Host Control Protocol (DHCP), Perle’s “Fast Setup” for first time installation, provides simple deployment in Ethernet environments |
| Security | 802.1X, port security, Secure Shell (SSHv2); SNMPv3 provides encrypted administrator traffic during CLI and SNMP sessions; TACACS+ and RADIUS authentication facilitate centralized control and restrict unauthorized users. |
| Resiliency |
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| Manageability |
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| Industrial Ethernet Protocol Support | Manage Perle IDS-710 switches via PLC, NMS, HMI or SCADA systems using PROFINET or Modbus TCP. |
| Rugged design for harsh environments |
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| Reliable operation |
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| Real-time Ethernet performance |
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Features
| Performance Features | |
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| Port Auto-sensing | Auto-sensing of port speed and auto-negotiation of duplex on all switch ports for optimizing bandwidth |
| Auto MDI/MDIX | Medium-dependent interface crossover (Auto-MDIX) capability on 10/100 and 10/100/1000 mbps interfaces that enables the interface to automatically detect the required cable type (straight thru or crossover) and to configure the connection appropriately |
| 802.3x flow control | IEEE 802.3x flow control on all ports. (The switch does not initiate pause frames) |
| Link Aggregation protocol | Increase port bandwidth through link aggregation. Support is provided for IEEE 802.3ad using Link Aggregation Control Protocol (LACP). Up to eight (8) ports in a single port-channel |
| Static Link Aggregation | Provides the ability to operate under a static (manual) link aggregation scenario (where the remote switch peer does not support LACP) |
| Storm Control | Storm control prevents traffic on a LAN from being disrupted by a broadcast, multicast, or unicast storm on one of the physical interfaces. A LAN storm occurs when packets flood the LAN, creating excessive traffic and degrading network performance. Storm Control enables limits to be placed on broadcast, multicast and unicast traffic |
| Bandwidth Control Monitoring | Bandwidth Control provides the ability to monitor the flow rates on a per port basis and the ability to cause an SNMP trap to occur (selectable) and put the port in an “error-disabled” state |
| Static MAC Addressing | This feature enables the manual configuration of the MAC addresses on a per port basis. Flooding is prevented by retaining MAC entries across a reboot of the switch. |
| Port Blocking | Port Blocking provides the ability to block the flooding of unknown layer 2 unicast and multicast traffic on an Interface |
| IPV4 IGMP Snooping | Internet Group Management Protocol (IGMP) constrains the flooding of multicast traffic by dynamically configuring Layer 2 interfaces so that multicast traffic is forwarded to only those interfaces associated with IP multicast devices. IGMPv1, v2, v3, IGMP snooping querier mode, IGMP report suppression, topology change notification and robustness variable features are supported |
| IPV6 MLD Snooping | With Multicast Listener Discovery (MLD) snooping, IPv6 multicast data is selectively forwarded to a list of ports that want to receive the data, instead of being flooded to all ports in a VLAN. This list is constructed by snooping IPv6 multicast control packets |
| GMRP | GARP Multicast Registration Protocol (GMRP) provides a constrained multicast flooding facility similar to IGMP snooping. GMRP provides a mechanism that allows bridges and end stations to dynamically register group membership information with the MAC bridges attached to the same LAN segment and for that information to be disseminated across all bridges in the Bridged LAN that supports extended filtering services |
| Port Quick Disconnect | In some network environments, it is desirable to move an Ethernet from one switch port to another and have the device come on-line quickly. The Port Quick Disconnect feature if enabled, provides an immediate age-out of the MAC addresses learned on the port when the port status changes from a link-up to a link-down state |
| Manageability Features | |
| Web Device Manager | The Perle Web Device Manager is an embedded Web based application that provides an easy to use browser interface for managing the switch. Operates with both http and secure https streams. Unlike competitive products, Java applet technology is not required or used |
| Command Line Interface (CLI) | A familiar text-based Command Line Interface that is based on accepted industry standard syntax and structure. Ideal for CCNA and CCNP trained engineers, this interface is available via in-band Telnet/SSH or the out-band serial console port |
| Industrial Ethernet Protocols | Manage Perle IDS-500 switches via PLC, NMS, HMI or SCADA systems using PROFINET or Modbus TCP. |
| SNMP | Manage the switch with an SNMP compatible management station that is running platforms such as HP Openview or Perle’s PerleVIEW NMS. SNMP V1, V2C, V3 |
| PerleVIEW | PerleVIEW is Perle’s SNMP-based network management system that provides a view of the network with a large scale of Perle networking devices. |
| IPv6 | Manage with an IPv4 or IPV6 address |
| DHCP Client Auto-Configuration | Automates configuration of switch information such as IP address, default gateway, hostname and Domain Name System (DNS) as well as TFTP server names. Firmware and configuration file locations are provided through options 54, 66, 67, 125 and 150 |
| DHCP Relay | DHCP Relay is used for forwarding requests from DHCP clients when they are not on the same physical subnet. As a DHCP relay agent the switch operates as a Layer 3 device that forwards DHCP packets between clients and servers. |
| DHCP Option 82 Insertion | Normally used in metro or large enterprise deployments DHCP Option 82 insertion is used to provide additional information on “physical attachment” of the client. As per RFC 3046, option 82 enables additional pre-defined information to be inserted into the DHCP request packet (for DHCP Servers that support this option) |
| DHCP Server | For networks where a central DHCP server is not provided, the switch can provide a DHCP Server function for allocation of IP addresses to the connected devices |
| DHCP server port-based address allocation | When Ethernet switches are deployed in the network, they offer connectivity to the directly connected devices. In some environments, such as on a factory floor, if a device fails, the replacement device must be working immediately in the existing network When configured, the DHCP server port-based address allocation feature ensures that the same IP address is always offered to the same connected port even as the client identifier or client hardware address changes in the DHCP messages received on that port |
| LLDP | LLDP-Link Layer Discovery Protocol as per IEEE 802.1AB is a neighbor discovery protocol that is used for network devices to advertise information about themselves to other devices on the network. This protocol runs over the data-link layer, which allows two systems running different network layer protocols to learn about each other (via TLVs – Type-Length-Value) |
| LLDP-MED | LLDP Media Endpoint Discovery is an extension to LLDP that operates between endpoint devices such as IP phones and network devices such as switches. It specifically provides support for voice over IP (VoIP) applications and provides additional TLVs for capabilities discovery, network policy, Power over Ethernet, inventory management and location information |
| NTP | The switch can provide the time to NTP/SNTP capable client devices (or other switches, etc). You can run the SNTP client and the NTP server concurrently on your system. Therefore you can obtain time from an outside source and serve that time to the devices connected to the switch. |
| IEEE 1588 – PTP (Precision Time Protocol) |
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| File Download | Firmware can be transferred via TFTP, SCP, HTTP, HTTPS or via insertion of a microSD card. Text-based files that can be created or edited by common text editors. |
| Secure Copy Protocol (SCP) | SCP based on the Secure Shell (SSH) protocol, is a means of securely transferring computer files between a local host and a remote host or between two remote hosts. |
| Availability and Redundancy Features | |
| Spanning Tree Protocol (STP) | IEEE 802.1D now incorporated in IEEE 802.1Q-2014, STP prevents bridge loops and the broadcast radiation that results from them. Other Spanning Tree features include BPDU guard, Root guard, loop guard, root guard and TCN Guard |
| Rapid Spanning Tree Protocol (RSTP) | Interoperable with STP, RSTP (IEEE 802.1w) takes advantage of point-to-point wiring and provides rapid convergence of the spanning tree. Reconfiguration of the spanning tree can occur in less than 1 second |
| Multiple Spanning Tree Protocol (MSTP) | Originally defined in IEEE 802.1s and now incorporated IEEE 802.1Q-2014, defines an extension to RSTP for use with VLANs. The Multiple Spanning Tree Protocol configures a separate Spanning Tree for each VLAN group and blocks all but one of the possible alternate paths within each Spanning Tree. |
| MRP | Media Redundancy Protocol (IEC 62439-2). Fast convergence protocol designed for industrial networks. Recovery time of 10 ms or better in rings composed of up to 14 switches. Prevents a switch loop scenario in a ring topology. |
| P-Ring | P-Ring provides an easy to use method for configuring a ring network using standard spanning tree protocols. Prevents a switch loop scenario in a ring topology. |
| Link Standby | A link recovery feature using a primary and backup link. Provides a simple alternative to spanning tree protocols for link redundancy |
| VLAN Features | |
| VLAN Range | Up to 256 VLANS across a VLAN ID range of 1 to 4000 |
| GVRP | Generic Attribute Registration Protocol (GARP) VLAN Registration Protocol (GVRP) is an application defined in the IEEE 802.1Q standard that allows for the control of VLANs. With GVRP, the switch can exchange VLAN configuration information with other GVRP switches, prune unnecessary broadcast and unknown unicast traffic, and dynamically create and manage VLANs on switches that are connected through 802.1Q trunk ports. |
| Voice VLANs | Voice VLANs enables one to separate, prioritize, and authenticate voice traffic moving through your network, and to avoid the possibility of broadcast storms affecting VoIP (Voice-over-IP) operation. With an IP Phone connected to an access port, a switchport voice VLAN enables the use of one VLAN for voice traffic and another VLAN for data traffic from an Ethernet device attached to the phone |
| VLAN Interfaces | Perle switches provide the ability to configure management VLAN interfaces. This enables network administrators to access the switch’s management interface from separate VLAN networks |
| Security Features | |
| IEEE 802.1X |
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| Login Banner and MOTD | A login message banner presented during sign-on can be configured by the network administrator. A Message Of The Day can also be created for presentation to an authenticated user. |
| Password Strength Checking | Many organizations require stringent management over the strength level of their passwords. When enabled, Perle extends this capability to local passwords stored on the switch enforcing strong passwords to be used. |
| Port Security – Secure MAC Addresses | This port security feature provides the ability to restrict input to an interface by limiting and identifying MAC addresses of the stations allowed to access the port (Access or Trunk) and will take specific actions when violations occur. |
| Management ACL | Restricting access to management functions can be configured by protocol or IP address selection are provided. This enables administrators to allow only specific workstations using particular protocols to be able to access the management functions of the switch |
| RADIUS Management Access Authentication | AAA support for RADIUS servers that Authenticate, Authorize and Account management sessions |
| TACACS+ Management Access Authentication | AAA support for TACACS+ servers that Authenticate, Authorize and Account management sessions |
| Secure Socket Layer (SSL) | SSL provided for secure browser sessions using HTTPS |
| Secure Shell (SSH) | SSH provided for secure SSH session for CLI and SCP file transfer sessions |
| SNMPV3 | Support provided for secure version 3 of SNMP |
| Quality of Service (QoS) and Class of Service (CoS) Features | |
| Classification | IP ToS/DSCP and IEEE 802.1p CoS |
| Congestion Avoidance | Weighted Fair Queuing or Strict Queuing |
| Egress Queues and scheduling |
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| Monitoring Features | |
| Port Mirroring | N:1 Port Mirroring is a method of monitoring network traffic. With port mirroring enabled, the switch sends a copy of one or more ports to a predefined destination port. Selection of Transmit, Receive frames or both can be made |
| RMON | RMON statistics provided for statistics, history, alarms and events for network monitoring and traffic analysis |
| Syslog | Facility for logging systems messages to an external SYSLOG server |
| Alert Log | Facility for logging systems messages locally |
| Traceroute | Layer 2 traceroute to identify the path that a frame takes from source to destination |
| Virtual cable test | A test that enables the detection of potential copper cabling issues such as pair polarity pair swaps and excessive pair skew as well as any opens, shorts or any impedance mismatch. Will report the distance in the cable to the open or short. |
| SFP Diagnostics and Monitoring | Interface provided to the SFP’s Digital Optical Monitoring facility to monitor operational or physical operating status of the SFP and link |
| Power Supply Monitoring | Provides the status of power supplies of the switch |
| Internal Temperature Monitoring | The internal ambient temperature of the switch can be obtained from the management interfaces |
| Alarm Processing | The switch can monitor global switch conditions as well as individual ports. These alarms can be configured to send messages to ;
Global Status Monitoring Alarms
Port Status Monitoring Alarms
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| Alarm Relay | When enabled, energizes the built-alarm relay triggering an external alarm circuit such as a bell, light or other signaling device according to alarm conditions set |
| Management and Standards | |
| IEEE Standards | IEEE 802.3 for 10Base-T IEEE 802.3u for 100BaseT(X) and 100BaseX IEEE 802.3ab for 1000Base-T IEEE 802.3z for 1000BaseX IEEE 802.3x for Flow Control IEEE 802.1D-2004 for Spanning Tree Protocol IEEE 802.1w for Rapid STP EEE 802.1s for Multiple Spanning Tree Protocol IEEE 802.1Q for VLAN Tagging IEEE 802.1p for Class of Service IEEE 802.1X for Authentication IEEE 802.3ad for Port Trunk with LACP IEEE 802.1AB LLDP IEEE 1588v1 PTP Precision Time Protocol IEEE 1588v2 PTP Precision Time Protocol |
| SNMP MIB Objects | IEEE8021-PAE-MIB NTPv4-MIB IEEE8021-SPANNING-TREE-MIB SYSAPPL-MIB LLDP-EXT-MED-MIB SNMP-COMMUNITY-MIB LLDP-EXT-MED-MIB IGMP-STD-MIB IEEE8021-MSTP-MIB Q-BRIDGE-MIB LLDP-EXT-DOT3-MIB IF-MIB RSTP-MIB DIFFSERV-DSCP-TC LLDP-EXT-DOT1-MIB IEEE8021-TC-MIB LLDP-MIB RMON2-MIB ENTITY-MIB P-BRIDGE-MIB PERLE-LOGIN-MIB PERLE-ALERT-MIB PERLE-IP-SSH-MIB PERLE-IP-PROTOCOLS-MIB PERLE-USER-MIB PERLE-SMI PERLE-MAC-NOTIFICATION-MIB PERLE-SYSINFO-MIB PERLE-LINKSTANDBY-MIB PERLE-AAA-MIB perle-AAA.MIB PERLE-IPV6-MIB PERLE-LOGGING-MIB PERLE-VLAN-MIB PERLE-IF-MIB PERLE-ENTITY-VENDORTYPE-OID-MIB PERLE-ERR-DISABLE-MIB PERLE-SWITCH-PLATFORM-MIB PERLE-ENVMON-MIB PERLE-TIME-MIB PERLE-PTP-MIB PERLE-P-RING-MIB PERLE-SNMP-MIB PERLE-FILE-TRANSFER-MIB PERLE-SWITCH-GLOBAL-MIB PERLE-BOOT-MIB PERLE-PRODUCTS-MIB PERLE-BANDWIDTH-CONTROL-MIB PERLE-IP-TELNET-MIB PERLE-GVRP-MIB PERLE-PORT-SECURITY-MIB PERLE-DHCP-SERVER-MIB PERLE-GARP-MIB PERLE-ARCHIVE-MIB PERLE-NTP-MIB PERLE-SSL-MIB PERLE-IGMP-MIB PERLE-ACL-MIB PERLE-POE-MIB PERLE-RELOAD-MIB PERLE-ENTITY-ALARM-MIB PERLE-IPV6-NEIGHBOR-MIB PERLE-DOT1X-AUTH-MIB PERLE-TC PERLE-DHCP-CLIENT-MIB PERLE-LINE-MIB PERLE-ARP-MIB PERLE-GMRP-MIB PERLE-MLD-MIB PERLE-IP-HTTP-MIB PERLE-PORT-MONITOR-MIB PERLE-SpTreeExtensions-MIB PERLE-IP-MIB |
Hardware Specs
Hardware Features & Technical Specifications: IDS-710HP Industrial Managed DIN Rail Switch
| PoE | |
|---|---|
| 450W total PoE power for the unit Support for full 803.2bt (90W) on 5 Ethernet ports simultaneously 54 VDC nominal 52-57 VDC (PoE++ IEEE 803.2bt Type 4), 100W max per port 54 VDC nominal 50-57 VDC (PoE++ IEEE 803.2bt Type 3), 60W max per port 54 VDC nominal 50-57 VDC (Poe+ IEEE 802.3at Type 2), 30W max per port 48 VDC nominal 44-57 VDC (PoE 802.3af or IEEE 802.3at Type 1), 15.4W max per port | |
| Power | |
| Dual Power Input | Both inputs draw power simultaneously. If one power source fails, the other live source can, acting as a backup, supply enough power to meet the operational needs of the switch. Nominal with voltage software sensing 44-57VDC, common positive or common negative 54 VDC nominal 52-57 VDC (PoE++ IEEE 803.2bt Type 4), 9.5A Max. 54 VDC nominal 50-57 VDC (PoE++ IEEE 803.2bt Type 3), 9.5A Max. 54 VDC nominal 50-57 VDC (Poe+ IEEE 802.3at Type 2), 5A Max. 48 VDC nominal 44-57 VDC (PoE 802.3af or IEEE 802.3at Type 1), 3A Max. |
| Power & Alarm Connector | 2 x 4-Pin Removable Terminal Blocks Grounding screw on metal chassis |
| Maximum Current Consumption @57 vDC | 9 amps |
| Maximum Power Consumption @57 vDC | 480 watts |
| Overload Current Protection | Fused overload current protection |
| Reverse polarity protection | The positive and negative inputs can be reversed providing safe and simple power connectivity. |
| Access Ports | |
| RJ45 | 8 shielded RJ45 ports for 10/100/1000Base-T up to 100 meters (328 ft) Auto-negotiation Auto-MDI/MDIX-crossover for use with either crossover over straight-through cable types Ethernet isolation 1500 V |
| SFP | Two empty slots Fixed and Multi speed SFP support: 10/100/1000 on SFP Copper & 1G/2.5G on SFP Fiber |
| USB Serial Console port | MicroUSB Type B female port for serial console management. Used as an alternative port for out of band management connections |
| Alarm Relay | |
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| Switch Properties | |
| Microprocessor Frequency | ARM Cortex A8 600MHZ |
| RAM & Flash | 4GB DDR3 & 4GB eMMC |
| Standards | IEEE 802.3 for 10Base-T and 2500Base-T IEEE 802.3ab for 1000Base-T IEEE 802.3z for 1000BaseX and 2500BaseX IEEE 802.3u for 100Base-TX and 100Base-FX Energy Efficient Ethernet (EEE) as per 802.3az. IEEE 802.3x for Flow Control IEEE 1588 – 2008 (in software only) 802.1x |
| Processing Type | Store and Forward |
| MAC Address Table Size | 8K |
| VLAN ID range | 1 to 4000 |
| IGMP groups | 1024 |
| Packet Buffer Memory | 1 Mbit |
| Jumbo Frame Size | 10 KB |
| Indicators | |
| System | Indicates whether the switch O/S is operating normally |
| RJ45 Ethernet | These integrated colored LEDs indicate link, activity and speed for each port. |
| Fiber Link | Fiber link LED indicates Link and Data Activity |
| Alarm | The alarm LED (Red) will be turned on under alarm conditions |
| Reset | Once pushed all 4 LEDs are solid Red for 3 seconds |
| Environmental Specifications | |
| MTBF | 192,408 Hours Calculation model based on MIL-HDBK-217-FN2 @ 30 °C |
| Operating Temperature Ranges | IDS-710HP: -10° C to 60° C (14° F to 140° F). IDS-710HP-XT: -40° C to 70° C (-40 F to 158° F) |
| Storage Temperature Range | -40 C to 85 C (-40 F to 185 F) |
| Operating Humidity Range | 5% to 90% non-condensing |
| Storage Humidity Range | 5% to 95% non-condensing |
| Maximum Heat Output | 13.99 Btu/hr without PoE 39.95 Btu/hr with PoE |
| Operating Altitude | Up to 3,048 meters (10,000 feet) |
| Chassis | Metal with an IP20 ingress protection rating |
| Din Rail Mountable | DIN Rail attachment included. Mounts to standard 35 mm DIN rail in accordance with DIN EN 60175. Removable to accommodate optional Panel/Wall mount kit |
| Product Weight and Dimensions | |
| Weight | 0.48kg (1.06lb) |
| Dimensions | 130 x 130 x 45mm (5.1 x 5.1 x 1.8in) |
| Packaging | |
| Shipping Weight | 0.64kg (1.41lb) |
| Shipping Dimensions | 25 x 17 x 7 cm ( 9.84 x 6.7 x 2.75 in) |
| Standards and Certifications | |
| Safety | CE Mark UL 61010-1 and UL 61010-2-201 (including CB) UL/ULC/EN 62368-1 (including CB) CAN/CSA C22.2 No. 62368-1-14 |
| Emissions | FCC 47 Part 15 Class A, EN55032 (CISPR32) Class A ICES-003 EN61000-6-4 (Emissions for industrial environments) CISPR 32:2015/EN 55032:2015 (Class A) CISPR 24:2010/EN 55024:2010 EN61000-3-2 |
| EMC and Immunity | CISPR 24 / EN55024 CISPR 32 / EN55032 IEC/EN 61000-4-2 (ESD) : Contact discharge +/- 4kv, Air discharge +/- 8kv IEC/EN 61000-4-3 (RS) : 80mhz to 16hz ; 20v/m, 1.5hkz to 2.0ghz ; 10 v/m, 2.0ghz to 2.7 ghz ; 5 v/m IEC/EN 61000-4-4 (EFT) : DC power line +/- 2kv, data line +/- 1kv IEC/EN 61000-4-5 (Surge) : DC power line, Line/Line +/- 1kv, Line/Earth +/- 2kv, data line /earth +/- 2kv IEC/EN 61000-4-6 (CS) :150mhz-80mhz 10vrms IEC/EN 61000-4-8 (Magnetic Field) :30 A/M EN 61000-4-11 IEC/EN 61000-6-2 (General Immunity in Industrial Environments) |
| Industrial Safety | UL 61010-1 and UL 61010-2-201 (Standard for Safety for Programmable Controllers). |
| Environmental | Reach, RoHS and WEEE Compliant |
| Other | ECCN: 5A992 |
| HTSUS Number: 8517.62.0020 | |
| 5 year Warranty | |
| Contents Shipped |
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Application Diagram
| IDS-710HP Industrial Managed PoE Switch Application Diagrams |
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| Daisy Chain Application IDS-710HP Switches can connect to neighboring switches via uplink ports. Each IDS-710HP provides connectivity to the fiber link, and power IP cameras and Wi-Fi access points at each location along the daisy chain.
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| Virtual Switch Segmentation This is useful when up to five isolated networks domains share a single network distribution location. The example below depicts a scenario where a surveillance security (blue) network and a Wi-Fi (brown) network are sharing a single hub distribution location. Using the two uplinks the IDS-710HP Switch drives both the Cameras and the Wi-Fi Access Points while maintaining isolation between the networks.
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Resources:Software / Firmware / User Guide Downloads | |
Visio Stencil & CAD File Downloads | |
Tech Support FAQ | |