7+3G-port Gigabit managed Ethernet switches with 4 IEEE 802.3af PoE ports
The EDS-P510 series Gigabit managed redundant Ethernet switches come standard with 4 10/100BaseT(X) 802.3af (PoE) compliant Ethernet ports and 3 combo Gigabit Ethernet ports. The EDS-P510 switches provide up to 15.4 watts of power per PoE port, and allow power to be supplied to connected devices (such as surveillance cameras, wireless access points, and IP phones) when AC power is not readily available or is cost-prohibitive to provide locally. The EDS-P510 switches are highly versatile, and their SFP fiber port can transmit data up to 80 km from the device to the control center with high EMI immunity. The Ethernet switches support advanced management and security features. The EDS-P510 series is designed especially for security automation applications such as IP surveillance, and gate of entry systems, which can benefit from a scalable backbone construction and Power-over-Ethernet support.
• Technology | |
Standards | IEEE 802.3af for Power-over-Ethernet IEEE 802.3 for 10BaseT IEEE 802.3u for 100BaseT(X) and 100BaseFX IEEE 802.3ab for 1000BaseT(X) 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 IEEE 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 |
• Software Features | |
Management | IPv4/IPv6, SNMP v1/v2c/v3, LLDP, Port Mirror, DDM, RMON, DHCP Server/Client, DHCP Option 66/67/82, BootP, TFTP, SMTP, RARP, Telnet, Syslog, SNMP Inform, Flow Control, Back Pressure Flow Control |
Filter | 802.1Q VLAN, Port-Based VLAN, GVRP, IGMP v1/v2, GMRP |
Redundancy Protocols | STP, RSTP, MSTP, Turbo Ring v1/v2, Turbo Chain, Link Aggregation |
Security | RADIUS, TACACS+, SSL, SSH, Port Lock |
Time Management | SNTP, NTP Server/Client, IEEE 1588v2 PTP (software-based) |
Industrial Protocols | EtherNet/IP, Modbus/TCP |
MIB | MIB-II, Ethernet-Like MIB, P-BRIDGE MIB, Q-BRIDGE MIB, Bridge MIB, RSTP MIB, RMON MIB Group 1, 2, 3, 9 |
• Switch Properties | |
Priority Queues | 4 |
Max. Number of VLANs | 64 |
VLAN ID Range | VID 1 to 4094 |
IGMP Groups | 1024 |
MAC Table Size | 8 K |
Packet Buffer Size | 1 Mbit |
• Interface | |
RJ45 Ports | 10/100BaseT(X) or 10/100/1000BaseT(X) auto negotiation speed |
Fiber Ports | 100/1000BaseSFP slot |
Console Port | RS-232 (RJ45 connector) |
PoE Pinout | V+, V+, V-, V- for pin 1, 2, 3, 6 (Endspan, MDI Alternative A) |
DIP Switches | Turbo Ring, Master, Coupler, Reserve |
Alarm Contact | 2 relay outputs with current carrying capacity of 0.5 A @ 48 VDC |
Digital Inputs | 2 inputs with the same ground, but electrically isolated from the electronics. • +13 to +30 V for state “1” • -30 to +3 V for state “0” • Max. input current: 8 mA |
• Power Requirements | |
Input Voltage | 48 VDC, redundant dual inputs |
Operating Voltage | 44 to 57 VDC |
Input Current | 1.58 A @ 48 VDC |
Overload Current Protection | Present |
Connection | 2 removable 6-contact terminal blocks |
Reverse Polarity Protection | Present |
Power Consumption | Max. 14.24 W full loading without PDs’ consumption |
Power Budget | Max. 61.6 W for total PDs’ consumptionMax. 15.4 W for each PoE port |
• Physical Characteristics | |
Housing | Metal |
IP Rating | IP30 protection |
Dimensions | 80.2 x 135 x 105 mm (3.16 x 5.31 x 4.13 in) |
Weight | 1170 g (2.58 lb) |
Installation | DIN-rail mounting, wall mounting (with optional kit) |
• Environmental Limits | |
Operating Temperature | Standard Models: 0 to 60°C (32 to 140°F) Wide Temp. Models: -40 to 75°C (-40 to 167°F) |
Storage Temperature | -40 to 85°C (-40 to 185°F) |
Ambient Relative Humidity | 5 to 95% (non-condensing) |
• Standards and Certifications | |
Safety | UL 508 |
EMC | EN 55032/24 |
EMI | CISPR 32, FCC Part 15B Class A |
EMS | IEC 61000-4-2 ESD: Contact: 6 kV; Air: 8 kV IEC 61000-4-3 RS: 80 MHz to 1 GHz: 10 V/m IEC 61000-4-4 EFT: Power: 2 kV; Signal: 1 kV IEC 61000-4-5 Surge: Power: 2 kV; Signal: 1 kV IEC 61000-4-6 CS: Signal: 10 V IEC 61000-4-8 |
Marine | DNV, GL, LR, ABS, NK |
Shock | IEC 60068-2-27 |
Freefall | IEC 60068-2-32 |
Vibration | IEC 60068-2-6 Note: Please check Moxa’s website for the most up-to-date certification status. |
• MTBF (mean time between failures) | |
Time | 205,384 hrs |
Standard | Telcordia (Bellcore), GB |
Model No. | Description | |
---|---|---|
EDS-P510 | Managed Gigabit Ethernet switch with 3 10/100BaseT(X) ports, 4 PoE 10/100BaseT(X) ports, and 3 combo 10/100/1000BaseT(X) or 100/1000BaseSFP slots for adding SFP-1G/1FE series Gigabit/fast Ethernet modules, 0 to 60°C operating temperature | |
EDS-P510-T | Managed Gigabit Ethernet switch with 3 10/100BaseT(X) ports, 4 PoE 10/100BaseT(X) ports, and 3 combo 10/100/1000BaseT(X) or 100/1000BaseSFP slots for adding SFP-1G/1FE series Gigabit/fast Ethernet modules, -40 to 75°C operating temperature |
SFP-1G Series
Model No. | Description | |
---|---|---|
SFP-1G10ALC | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 10 km transmission; TX 1310 nm, RX 1550 nm, 0 to 60°C operating temperature | |
SFP-1G10BLC | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 10 km transmission; TX 1550 nm, RX 1310 nm, 0 to 60°C operating temperature | |
SFP-1GSXLC | SFP module with 1 1000BaseSX port with LC connector for 0.5 km transmission, 0 to 60°C operating temperature | |
SFP-1GLSXLC | SFP module with 1 1000BaseLSX port with LC connector for 2 km transmission, 0 to 60°C operating temperature | |
SFP-1GLXLC | SFP module with 1 1000BaseLX port with LC connector for 10 km transmission, 0 to 60°C operating temperature | |
SFP-1GLHLC | SFP module with 1 1000BaseLH port with LC connector for 30 km transmission, 0 to 60°C operating temperature | |
SFP-1GLHXLC | SFP module with 1 1000BaseLHX port with LC connector for 40 km transmission, 0 to 60°C operating temperature | |
SFP-1GZXLC | SFP module with 1 1000BaseZX port with LC connector for 80 km transmission, 0 to 60°C operating temperature | |
SFP-1GEZXLC | SFP module with 1 1000BaseEZX port with LC connector for 110 km transmission, 0 to 60°C operating temperature | |
SFP-1G10BLC-T | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 10 km transmission; TX 1550 nm, RX 1310 nm, -40 to 85°C operating temperature | |
SFP-1G20ALC-T | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 20 km transmission; TX 1310 nm, RX 1550 nm, -40 to 85°C operating temperature | |
SFP-1G20BLC-T | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 20 km transmission; TX 1550 nm, RX 1310 nm, -40 to 85°C operating temperature | |
SFP-1G40ALC-T | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 40 km transmission; TX 1310 nm, RX 1550 nm, -40 to 85°C operating temperature | |
SFP-1G40BLC-T | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 40 km transmission; TX 1550 nm, RX 1310 nm, -40 to 85°C operating temperature | |
SFP-1G20ALC | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 20 km transmission; TX 1310 nm, RX 1550 nm, 0 to 60°C operating temperature | |
SFP-1G20BLC | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 20 km transmission; TX 1550 nm, RX 1310 nm, 0 to 60°C operating temperature | |
SFP-1GLHLC-T | SFP module with 1 1000BaseLH port with LC connector for 30 km transmission, -40 to 85°C operating temperature | |
SFP-1GLHXLC-T | SFP module with 1 1000BaseLHX port with LC connector for 40 km transmission, -40 to 85°C operating temperature | |
SFP-1GZXLC-T | SFP module with 1 1000BaseZX port with LC connector for 80 km transmission, -40 to 85°C operating temperature | |
SFP-1G10ALC-T | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 10 km transmission; TX 1310 nm, RX 1550 nm, -40 to 85°C operating temperature | |
SFP-1G40ALC | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 40 km transmission; TX 1310 nm, RX 1550 nm, 0 to 60°C operating temperature | |
SFP-1G40BLC | WDM-type (BiDi) SFP module with 1 1000BaseSFP port with LC connector for 40 km transmission; TX 1550 nm, RX 1310 nm, 0 to 60°C operating temperature | |
SFP-1GSXLC-T | SFP module with 1 1000BaseSX port with LC connector for 0.5 km transmission, -20 to 75°C operating temperature | |
SFP-1GLSXLC-T | SFP module with 1 1000BaseLSX port with LC connector for 2 km transmission, -40 to 85°C operating temperature | |
SFP-1GLXLC-T | SFP module with 1 1000BaseLX port with LC connector for 10 km transmission, -40 to 85°C operating temperature |
SFP-1FE Series
Model No. | Description | |
---|---|---|
SFP-1FEMLC-T | SFP module with 100Base multi-mode with LC connector for 4 km transmission, -40 to 85°C operating temperature | |
SFP-1FESLC-T | SFP module with 100Base single-mode with LC connector for 40 km transmission, -40 to 85°C operating temperature | |
SFP-1FELLC-T | SFP module with 100Base single-mode with LC connector for 80 km transmission, -40 to 85°C operating temperature |
Category
Model No. | Description | |
---|---|---|
EDS-SNMP OPC Server Pro | OPC server for integrating SNMP devices into HMI/SCADA systems |
DIN Rail Power Supplies
Model No. | Description | |
---|---|---|
DRP-240-48 | 240W/5A DIN-Rail 48 VDC power supply with universal 85 to 264 VAC input or 120-370 VDC, -10~70°C operating temperature | |
DR-75-48 | 75W/1.6A DIN-Rail 48 VDC power supply with universal 85 to 264 VAC or 120-370 VDC input, -10 to 60°C operating temperature | |
DR-120-48 | 120W/2.5A DIN-Rail 48 VDC power supply with universal 88 to 132 VAC or 176 to 264 VAC input by switch, or 248-370 VDC, -10 to 60°C operating temperature |
PoE Splitters & Injectors
Model No. | Description | |
---|---|---|
SPL-24 | PoE splitters | |
INJ-24A | Gigabit high power IEEE 802.3af/at PoE+ injectors |
Trial Software
Model No. | Description | |
---|---|---|
MXview | Industrial network management software designed for converged automation networks | |
MXconfig | Industrial network configuration tool | |
MXstudio Industrial Network Management Suite | Industrial network management suite for installation, operation, maintenance, and diagnostics |
FAQ: Is Your Network Infrastructure Ready for the IIoT? The Industrial Internet of Things (IIoT) trend aims to improve efficiency and productivity by connecting different devices together as well as collecting and analyzing large volumes of data to offer accurate information. However, before reaping the benefits of the IIoT, users need to ensure that the correct infrastructure is in place. To make sure your network is ready for the IIoT, check out five of the most frequently mentioned questions. | ||
2015 Industrial Ethernet Solutions Brochure Build SMART Connectivity to Boost Your Industrial IoT Opportunities The Industrial Internet of Things is evolving to achieve all kinds of information automation. Staying ahead of the curve leads to increased productivity, which crucially depends on high efficiency and availability of network connectivity. Moxa’s comprehensive product portfolio goes beyond meeting stringent industrial Ethernet standards, bringing vertical expertise to around-the-clock Industrial IoT operations around the world. Check out this 24-page IES Brochure to get detailed information of the following products and solutions: | ||
White Paper Ensure Nonstop IP Surveillance with an Optimized Industrial Ethernet Network If your CCTV system uses multicast transmission over a redundant ring, then even if your ring redundancy protocol is able to activate backup paths in a fraction of a second when a disconnection occurs, it could still take more than 2 minutes for your multicast video streams to recover. This is because a number of different protocols—including IGMP (Internet Group Management Protocol) and PIM-DM (Protocol Independent Multicast – Dense Mode)—are implemented to transmit your video packets around the network, and these standard protocols are not designed for mission-critical applications. In this white paper, we show how implementing an appropriate non-standard proprietary protocol can optimize your network for video stream transmission, and in this way overcome IGMP’s sluggishness. | ||
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