Olycom 8 Port PoE++ Network Gigabit Managed Switch
Key Features of 90-Watt PoE Switch
Specification of poe switch hardened
Product Name | 10/100/1000Mbps Managed Industrial POE Fiber Switch(2F+8TP) |
Port |
2 x 1000Mpbs SFP port, 1G/2.5G both supportive SM: 1310nm/1550nm,20Km; 1490nm/1550nm, 40~120Km; MM: 1310nm, 2Km; 850nm, 500 meters 8x10/100/1000M UTP RJ45(Support MDI/MDIX auto-sensing) |
Standard | IEEE 802.3, IEEE802.3U, IEEE802.3ab, IEEE802.3z, IEEE802.1d STP, IEEE802.1w RSTP, IEEE802.1s MSTP, ITU-T G.8023 EPR/Y.1344, IEEE802.1Q, IEEE802.1X, IEEE802.3ad, IEEE802.3x, IEEE802.3af, IEEE802.3at, IEEE802.1ad, IEEE802.1p, IEEE802.1ab, IEEE802.3az |
VLAND ID | 4096 |
Jumbo Frame | 9.6KB |
MAC Address Table Size | 8K |
Switching features |
Transmission mode: Storage and forward System bandwidth: 26Gbps (non-traffic jam) |
Network media |
10BASE-T: CAT3, CAT4, CAT5 un-shielded twisted pair(≤100m) 100/1000BASE-TX: CAT5 or above shielded twisted pair(≤100m) SFP port, transmission distance: 20Km, 40Km, 60Km, 80Km, 100Km |
LEDs | Power, network, fiber |
Power supply |
POE power supply input voltage: 48V (max 57V) Single PoE power supply output power: 90W (port 1~8) PoE output voltage: 48V |
Environment |
Working temperature: -40~75°C Storage temperature: -40~85°C Working humidity: 10%~90%, non-condensing Storage humidity: 10%~95%, non-condensing |
Industry Standards |
ESD: IEC61000-4-2, ±15KV air, ±6KV contact EFT: IEC61000-4-4, General ±6KV Surge: IEC61000-4-5, Differential ±2KV, Common±6KV |
Certification |
CE-EMC: EN 55032:2015+AC:2016+A1:2020+A11:2020 EN 55035:2017+A11:2020/EN IEC 61000-3-2:2019/A1:2021 EN 61000-3-3:2013/A2:2021/AC:2022 CE-LVD: EN IEC 62368-1:2020+A11:2020 FCC: 47 CFR FCC Part 15 Subpart B(Class B)ANSI C63.4:2014 |
Mechanical information |
Shell: Corrugated metal shell Safety class: IP40 Dimension: 165 x 112 x 45.5mm Mounting method: Din-rail mounting |
Warranty | Replacement within 1 year; 3 years repairing |
Management
Application of 90W BT PoE Switch
FAQ
It is OK to adjust the POE output via management.
Eg: In one testing, you could make Ethernet port 1~8 POE bt 90W.
In another, port 1~4 POE bt 90W and port 5~8 POE at 30W or without POE.
There are usually 4 tiers of POE outputs in actual application.
15.4W/30W/60W/90W, all supported and adjustable via management.
Green when POE is working.
Off when POE is disabled.
It is OK to monitor any 2 ports(fiber or Ethernet) via management.
Same as above example, management allows you to adjust the port combination.
Eg: one alarm setup is Ethernet 5 port and the other one is fiber 1 port.
Please note that, in this case if Ethernet 6 port is down, alarm port gives no response.
Another way of setup is click all ports(fiber/Ethernet), see below interface
then any port is down, the alarm port turns red.
This could be configured via STP or ERPS.
Based on 2-SFP ring(the most basic format)
6~7 switches are OK in one loop if it goes STP ring.
Principally countless ones if it is by ERPS.
It can continuously supply POE++ power to PD devices for 8 UTP ports(excluding combo ports).
This requires a min. 15A power supply if it is full-load(48V*15A=720W).
But in actual application, we do not suggest connecting too many power-hungry devices to a single switch, this will affect the stability.