The RG-
S8610’s hardware system is composed of the chassis, the power system, modules, the cable management
bracket, the fan tray, air inlet/outlet ducts and the air filter.
Chassis
The RG-S8614 has a standard 19-inch chassis, which is 956mm high, 436.8mm wide and 448mm deep. It consists of the
system modular layer, the fan layer, air inlet/outlet layers, the cable management bracket, the air filter and the power
system layer.
The system modular layer is a module subrack that mechanically supports various modules of the RG-S8610.The
modular subrack is composed of module slots and back panel.
At the bottom of the chassis are two power frames, above which is the air inlet layer. The air filter is located between the
air inlet layer and the cable management bracket, which is located below the system modular layer. Above the system
modular layer is the fan layer, which houses six fans. At the top of the chassis is the air outlet layer working to suction air.
Module Slot
RG-S8610 provides 10 module slots, of which two in the middle are only for the MCs. The eight slots on the left and the
right sides can accommodate a mix of various modules. Modules are inserted vertically in RG-S8610, with the same
height of 412 mm, and depth of 350 mm.
When all the slots are occupied, the modules in the subrack of RG-S8610 are arranged as follows:
Two management modules as backup for each other
Eight modules selected according to needs
The slots for the two management modules are in the middle and identified as M1 and M2 from left to right; the other eight
line cards are numbered 1-8 from left to right.
Backplane
The RG-
S8610’s backplane interconnects high-speed data links from switch management board to module circuit board
and various management and control signals between modules. Its functions are as follows:
Interconnects all signals between modules and provide high-speed communication channel.
Passive backplane
Supports active/standby switching between management modules
Supports automatic identification of various slots
Implements distributed power supply
Introduces monitoring signal lines of the fan and power supply
Ventilation and Heat Dissipation System
The operating temperature of RG-S8610 is 0 to 40°C. The thermal design must ensure that the surface temperature of the
components does not exceed 50% to 80% of the allowed maximum temperature and satisfy the requirement on the
device’s reliability in the temperature range while ensuring the device’s reliability, safety and maintainability. According to
the thermal design of RG-S8610, fans are used to draw air for forced convection cooling in order to ensure that the device
works properly in the specified environment.
Содержание RG-S8606 B
Страница 1: ...RG S8600 Series Switch Hardware Installation and Reference Guide V1 78 ...
Страница 58: ...Figure 2 3 Moving the RG S8606 Switch Figure 2 4 Moving the RG S8606 B Switch ...
Страница 62: ...Figure 2 6 Ventilation of RG S8614 ...
Страница 63: ...Figure 2 7 Ventilation of RG S8610 Figure 2 8 Ventilation of RG S8606 ...
Страница 76: ...Figure 3 8 Installing the Power Supply of the RG S8606 Switch ...
Страница 92: ...Figure 3 34 Board Components of the RG S8610 Figure 3 35 Board Components of RG S8606 ...
Страница 116: ......
