Enterprise Switch S8700-4 02116709 Cloudengine S8700 Series Access Switch
● Model No.: CloudEngine S8700-4
● switching capacity: 51.2/256 Tbps to 68.2/307.2 Tbps
● Packet forwarding rate: Up to 51200 Mpps
● Warranty: 1years
● MOQ: 1 pieces
Application scenarios
1. Aggregation/Access Layer of Large Campus Network: Utilizing its high-density ports and long-distance PoE power supply capability, it aggregates a large amount of traffic from the access layer and directly provides data access and long-distance power supply for Wi Fi 6/7 APs, IP cameras, video phones, and other terminals distributed throughout. For example, in the renovation project of a certain party and government service center, the S8700-4 was purchased for use as an aggregation switch.
2. Core layer of small and medium-sized park networks: For small and medium-sized enterprises, schools, or hospitals that require high performance and reliability, the S8700-4 can be used as a core switch to build a minimalist two-layer network architecture (core access), simplify operation and reduce investment.
3. Smart Park and IoT Scenarios: With its PoE++power supply capacity of up to 90W, the S8700-4 can not only power the AP, but also provide data access and power supply for a wider range of IoT terminals (such as high-definition cameras, intelligent lighting, building automation equipment, etc.), which is an ideal choice for building a smart park
Key selling points
1. Ultra high density access and long-distance PoE power supply: This is the core differentiation advantage of S8700-4. It exclusively offers 72 10G optical port boards, with a port density 1.5 times that of the industry. More importantly, it supports optoelectronic hybrid cable technology and can provide up to 90W PoE++power supply for a single port, with a transmission distance of up to 300 meters (traditional PoE power supply is only 100 meters), perfectly solving the power supply problem of long-distance deployment of high-power devices such as outdoor APs and high-definition cameras.
2. Innovative dual active main control, telecom grade reliability: adopting a dual main control board hot backup design, when a fault is detected in the main control board, the business can be quickly switched to the backup main control board, with a switching time of less than 5 milliseconds. At the same time, key components such as power supplies and fans are designed with redundancy to ensure stable operation of the network core/aggregation nodes.
3. Intelligent operation and experience guarantee: Built in powerful application recognition capability, capable of identifying over 6000 types of applications. Combined with a comprehensive QoS strategy, it can provide a deterministic low latency forwarding experience for core applications such as video conferencing and critical business systems. Simultaneously supporting network virtualization technologies such as VXLAN to adapt to the evolution of cloud based networks.
4. Comprehensive security capabilities: Supports MACsec (Media Access Control Security) hop by hop data encryption to ensure secure data transmission. Simultaneously supporting multiple network access control methods such as 802.1X and MAC address authentication, effectively preventing various types of network attacks
Detailed description
| Item | Specification |
|---|---|
| Dimensions without packaging (H x W x D) [mm(in.)] |
|
| Dimensions with packaging (H x W x D) [mm(in.)] | 510 mm x 590 mm x 790 mm (20.08 in. x 23.23 in. x 31.10 in.) |
| Chassis height [U] | 5 U |
| Cabinet installation standards | A66E |
| Chassis material | Metal |
| Weight without packaging [kg(lb)] | 23 kg (50.71 lb) (including the device, auxiliary material package, and cable management frames) |
| Weight without packaging (full configuration) [kg(lb)] | 44.28 kg (97.62 lb) |
| Maximum power consumption [W] | 638 W (full configuration, without PoE) |
| Maximum heat dissipation [BTU/hour] | 2176.93 BTU/hour |
| MTBF [years] | 35.17 years |
| Availability | 0.9999935084 |
| Noise at normal temperature (acoustic power) [dB(A)] |
|
| Number of MPU slots | 2 |
| Number of service board slots |
2 NOTE:
The main control board can provide service ports, which have the same service access capability as those on the service board. |
| Number of power slots | 6 |
| Number of fans modules | 1 |
| LPU slot direction | Horizontal |
| Redundant MPUs | The control unit and switching unit work in hot standby (1:1) mode. |
| Redundant power supply |
DC power supply: The N+0 and N+1 modes are supported. The N+1 mode is recommended. AC power supply: The N+0, N+1, and N+N modes are supported. The N+1 mode is recommended. |
| Redundant fans | If a single fan in the fan tray is faulty, the system can work properly for a short period of time. However, you are advised to replace the faulty fan tray immediately. |
| Long-term operating temperature [°C(°F)] |
–5°C to +45°C (23°F to 113°F) at an altitude of –60 m to +1800 m (–197 ft. to +5906 ft.) NOTE:
When an optical module with a transmission distance greater than or equal to 80 km is used, it can be used only in environments with temperatures ranging from -5°C to +40°C (23°F to 104°F). |
| Short-term operating temperature [°C(°F)] |
–5°C to +55°C (23°F to 131°F) at an altitude of –60 m to 1800 m (–197 ft. to 5906 ft.) NOTE:
When the short-term operating temperature ranges from 45°C to 55°C (113°F to 131°F), only optical modules with a transmission distance of less than or equal to 10 km can be used. |
| Restriction on the operating temperature variation rate [°C(°F)] | When the altitude is 1800 m to 5000 m (5905.44 ft. to 16404.00 ft.), the highest operating temperature reduces by 1°C (1.8°F) every time the altitude increases by 220 m (722 ft.). |
| Storage temperature [°C(°F)] | –40°C to +70°C (–40°F to +158°F) |
| Long-term operating relative humidity [RH] | 5% RH to 95% RH, non-condensing |
| Long-term operating altitude [m(ft.)] | –60 m to +5000 m (–197 ft. to 16404 ft.) |
| Storage altitude [m(ft.)] | < 5000 m (16404 ft.) |
| Storage environment |
ETSI EN 300 019-1-1 Class 1.2 NOTE:
|
| Rated input voltage [V] |
|
| Input voltage range [V] |
|
| Power supply surge protection [kV] |
|
| Ingress protection level (dustproof/waterproof) | IP20 |
| Heat dissipation mode | Absorbing cold air into the device |
| Airflow direction | Front-to-back airflow |
| PoE | Supported |
| Relationship between PoE and system power modules [W] | Shared, not differentiated |
| Maximum PoE output power per slot [W] | 4800 W (2880 W/slot for the current card) |
| Maximum number of PoE ports per slot | 48 |
| Maximum PoE output power [W] | 90 W |
| Maximum power output capability [W] |
NOTE:
When the input voltage of an AC power module is 110 V, the AC power module cannot be used together with other power modules. Otherwise, overcurrent protection may be triggered for the power module. |
| Certification |
EMC certification Safety certification Manufacturing certification |
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