CloudEngine S5735-L24ST4XE-A-V2 series switches are ideal for scenarios such as enterprise campus network access and gigabit to the desktop. Built on next-generation, high-performancehardware and software platform, CloudEngine S5735-L24ST4XE-A-V2 switches stand out with compelling features such as intelligent stack (iStack), flexible Ethernet networking, and diversified security control. They support multiple Layer 3 routing protocols and provide high performance and service processing capabilities.
| Specification of S5735-L24ST4XE-A-V2 | |
| Ports |
24 x GE SFP ports, 8 of which are dual-purpose 10/100/1000 or SFP, 4 x 10GE SFP+ ports, 2 x12GE stack ports |
|
Dimensions (H x W x D) |
43.6 mm x 442 mm x 220 mm |
|
Chassis height |
1 U |
|
Chassis weight (including packaging) |
3.55 kg |
|
GE Base-T port |
8 Combo |
|
GE SFP port |
24 |
|
10GE port |
4 |
|
Dedicated 12GE stack port |
2 |
|
Console port (RJ45) |
Supported |
|
USB port |
USB 2.0 |
|
CPU Frequency |
1.1 GHz |
|
CPU Core |
2 |
|
Memory (DRAM) |
2 GB |
|
Power supply type |
Built-in AC power supply |
|
Rated voltage range |
100 V AC to 240 V AC, 50/60 Hz |
|
Maximum voltage range |
AC input: 90V AC to 290V AC, 45Hz to 65Hz |
|
Maximum input current |
2 A |
|
Maximum power consumption of the device |
41.7 W |
|
Power consumption in the case of 30% traffic load |
32.6 W |
|
Power consumption in the case of 100% traffic load |
26.07 W |
|
Power consumption in the case of 0% traffic load |
17.57 W |
|
Heat dissipation mode |
Air-cooled heat dissipation and intelligent speed adjustment |
|
Number of fan modules |
2 |
|
Airflow |
Air flows in from the left side and front panel, and exhausts from the right side |
|
Maximum heat dissipation of the device (BTU/hour) |
142.28 |
|
Long-term operating temperature |
|
|
Short-term operating temperature |
NA |
|
Storage temperature |
-40°C to +70°C |
|
Relative humidity |
5%-95%(non-condensing) |
|
Operating altitude |
5000 m |
|
Noise under normal temperature (sound power) |
38.1 dB(A) |
|
Noise under high temperature (sound power) |
58.6 dB(A) |
|
Noise under normal temperature (sound pressure) |
26.1 dB(A) |
|
Surge protection specification (RJ45 service port) |
NA |
|
Surge protection specification (power port) |
|
|
MTBF (year) |
47.39 |
|
MTTR (hour) |
2 |
|
Availability |
> 0.99999 |
|
Certification |
|
What is a Switch?
A switch is a device that enables communication between two or more IT devices, such as computers, servers, printers, and more. It helps devices within a network share resources, including printers, file storage, internet access, and application processing. In simple terms, a switch acts as a "traffic hub" in a network.
Key Characteristics:
Intelligent Forwarding: Unlike a basic hub, a switch intelligently directs data packets only to the intended recipient device based on MAC addresses.
Efficient Communication: This targeted data transmission reduces unnecessary traffic, enhances network performance, and improves security within the local network.
Scalability: Switches come in various sizes, from small desktop models for home/office use to large modular switches for enterprise data centers.
Common Applications:
Connecting devices within a Local Area Network (LAN)
Building enterprise networks, data centers, or home networks
Supporting resource sharing and collaborative workflows
In summary, a switch is a fundamental networking device that efficiently manages and directs data flow, ensuring smooth and reliable communication between connected devices.
Core Functions of a Switch
The primary functions of a switch include:
VLAN Segmentation – Enhances network security by isolating traffic into separate virtual networks.
Targeted Forwarding – Improves network performance by accurately identifying and forwarding data only to the intended destination device.
Traffic Control – Optimizes network reliability and stability through mechanisms like Quality of Service (QoS) and loop prevention (e.g., Spanning Tree Protocol).
Link Aggregation – Increases bandwidth and provides redundancy by combining multiple physical links into a single logical channel.
