Description
Product Information to the JL808-61001 Instant On 1960 Switch
The JL808-61001 HPE Aruba Instant On 1960 Switch, also known as the JL808-61001, is a high-performance switch designed for small and medium-sized businesses. It is designed to be easy to set up and manage, and it has a web-based interface.
This switch has 48 x 10/100/1000 ports for high-speed connectivity, allowing for fast data transfer and minimal network congestion. It also has 2 x 10 Gb SFP+ ports for uplink connectivity to other network devices or to connect to servers with 10 Gb Ethernet.
The JL808-61001 supports Quality of Service (QoS) for traffic prioritization, which allows administrators to assign different priority levels to different types of traffic and ensure that critical applications and services receive the necessary bandwidth and resources to function properly.
Additionally, it supports PoE+ (Power over Ethernet Plus) which allows the switch to provide power to connected devices such as IP phones, wireless access points and cameras.
This switch is designed to be used in a small to medium-size network environment, it is ideal for branch offices, small retail stores, and small to medium-size businesses. It also has built-in security features such as VLANs and access control lists, which helps to keep the network secure.
Overall, the JL808-61001 HPE Aruba Instant On 1960 2xgt 2sfp+ 48 Ports Switch is a high-performance switch that is designed for easy setup and management, and it is suitable for small to medium-sized businesses.
48 x 10/100/1000 Ports for High-Speed Connectivity
The JL808-61001 HPE Aruba Instant On 1960 Switch, also known as the JL808-61001, is a high-performance switch designed for small and medium-sized businesses. It has 48 x 10/100/1000 ports for high-speed connectivity, allowing for fast data transfer and minimal network congestion.
The switch also has 2 x 10 Gb SFP+ ports for uplink connectivity to other network devices or to connect to servers with 10 Gb Ethernet. This allows the switch to handle high bandwidth applications such as video conferencing, virtualization and cloud services.
This switch is designed for easy setup and management, with a web-based interface and built-in security features such as VLANs and access control lists. Additionally, it supports PoE+ (Power over Ethernet Plus) which allows the switch to provide power to connected devices such as IP phones, wireless access points and cameras.
The switch is designed to be used in a small to medium-size network environment, it is ideal for branch offices, small retail stores, and small to medium-size businesses.
Quality of Service (QoS) for Traffic Prioritization
Quality of Service (QoS) is a technology that allows for the prioritization of different types of network traffic. It is used to ensure that critical applications and services receive the necessary bandwidth and resources to function properly, while also limiting the impact of less important or non-essential traffic on the network.
With QoS, network administrators can assign different priority levels to different types of traffic, such as voice, video, and data. This can be done by using various methods such as marking packets with specific values (e.g. Differentiated Services Code Point (DSCP) or Type of Service (ToS)) or by assigning traffic to specific queues.
Once the traffic is marked or assigned to a queue, the QoS system can then use different techniques to ensure that the high-priority traffic receives the necessary resources. One of the most common techniques used is traffic shaping, which limits the amount of bandwidth that a specific type of traffic can use. Another technique is traffic policing, which drops or marks down packets that exceed a certain rate.
QoS can also be used to provide guaranteed bandwidth for specific applications or services. This is achieved by using techniques such as link reservation, which reserves a specific amount of bandwidth for a particular application or service.
In summary, the quality of Service (QoS) is a technique that allows for the prioritization of different types of network traffic. It enables network administrators to ensure that important applications and services receive the necessary resources to function properly, while also limiting the impact of less important or non-essential traffic on the network.
Energy Efficiency and Power Savings
Energy efficiency and power savings are important considerations for network devices, as they can have a significant impact on the overall cost of ownership and environmental impact.
There are several ways that a switch can improve energy efficiency and power savings
- Power over Ethernet (PoE): PoE technology allows network devices to receive power over the same cable that carries data, eliminating the need for separate power cables and reducing power consumption.
- Energy Efficient Ethernet (EEE): EEE is a standard that reduces power consumption during periods of low network activity. This is achieved by reducing the frequency at which the switch’s physical layer (PHY) operates.
- Link Aggregation Control Protocol (LACP): Link Aggregation Control Protocol (LACP) allows multiple physical links to be bundled together to form a single logical link, which can increase network redundancy and increase the amount of available bandwidth.
- Power management: Some switches have built-in power management features that allow administrators to control the power usage of the switch and its ports. This can be done through software, by setting different power modes, or by using hardware-based power management features.
- Power supply: The use of an Energy Star-rated power supply can help to reduce power consumption, and some models come with multiple power supply options, allowing you to choose the most energy-efficient option for your network.
In summary, there are several ways to improve the energy efficiency and power savings of a switch, such as using Power over Ethernet (PoE), Energy Efficient Ethernet (EEE), Link Aggregation Control Protocol (LACP), Power management, and Power supply.
General Information
- Manufacturer: HPE
- Part Number or SKU# JL808-61001
- Switch Type: Switch 48 Ports
Performance
- Latency (100 MBPS): 4.4 ?s , Latency (1 GBPS): 2.2 ?s , Latency (10 GBPS): 1.1 ?s , Throughput: 131 Mpps , Switching Capacity: 176 GBPS
- Capacity : Ipv4 Routing Table Entries: 32 , Ipv6 Routing Table Entries: 32
- Mac Address Table Size : 16000 Entries
- Jumbo Frame Support : 9216 Bytes
- Routing Protocol : Igmpv2, Igmp, Igmpv3, Static Ipv4 Routing, Mldv2, Mld
- Remote Management Protocol : Snmp 1, Rmon, Snmp 3, Snmp 2c, Http, Https, Tftp, Scp, Radius
Features
- Flow Control, Auto-Negotiation, Vlan Support, Auto-Uplink (Auto Mdi/Mdi-X), Igmp Snooping, Dos Attack Prevention, Port Mirroring, Broadcast Storm Control, Ipv6 Support, Multicast Storm Control, Unicast Storm Control, Firmware Upgradable, Sntp Support, Spanning Tree Protocol (Stp) Support, Rapid Spanning Tree Protocol (Rstp) Support, Multiple Spanning Tree Protocol (Mstp) Support, Dhcp Snooping, Access Control List (Acl) Support, Quality Of Service (Qos), Dhcp Server, Mld Snooping, Trusted Platform Module (Tpm), Cable Diagnostics Function, Dhcp Relay, Port Security, Port Based Access Control, Dhcp Client, Energy Efficient Ethernet, Class Of Service (Cos), Cloud Managed, Ip Source Guard, Internet Control Message Protocol (Icmp), Dual Image Support, Dns Client, Lldp-Med, Ingress Rate Limiting, Protected Ports, Bpdu Filter, Weighted Round Robin (Wrr), Arp Filtering, Dscp Prioritization, Auto Voice Vlan, Loop Protection
- Compliant Standards : Ieee 802.3u, Ieee 802.3i, Ieee 802.3z, Ieee 802.1d, Ieee 802.1q, Ieee 802.3ab, Ieee 802.1p, Ieee 802.3x, Ieee 802.3ad (Lacp), Ieee 802.1w, Ieee 802.1x, Ieee 802.3ae, Ieee 802.3ac, Ieee 802.1s, Ieee 802.1t, Ieee 802.1ab (Lldp), Ieee 802.3an, Ieee 802.3az
Expansion / Connectivity
- Interfaces
- 48 X Gigabit Lan Rj-45
- 2 X 10gbit Lan Sfp+
- 2 X 10gbit Lan Rj-45
Power
- Power Device : Internal Power Supply
- Voltage Required : Ac 100-240 V (50/60 Hz)
- Power Consumption Operational : 80 Watt
