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Preface Preface Objectives This document mainly describes hardware of the ISCOM6800 from aspects of chassis, fan, card, cable, optical module, and electromechanical device. This document helps you to understand hardware features, components, features implemented by each component, and technical specifications of the ISCOM6800.
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Description ISCOM6800 (A) Configuration This document describes services supported by the Guide ISCOM6800, and introduce configuration methods and procedures of these services in terms of service overview, default configurations, configuration methods, and configuration examples, including basic configurations, EPON service configurations,...
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Figure 1-4 Capacity assignment of the ISCOM6800 ..................... 5 Figure 2-1 FANS382 .............................. 7 Figure 3-1 Hardware information label on the ISCOM6800 ................10 Figure 3-2 Panel of the SMCA card ........................11 Figure 3-3 Panel of the EP16 card........................15 Figure 3-4 Panel of the GP8A card ........................
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ISCOM6800 (A) Hardware Description Tables Tables Table 1-1 Technical specifications of the ISCOM6800 chassis................5 Table 2-1 LEDs on the FANS382 ........................... 7 Table 2-2 Technical specifications of the FAS382 ....................7 Table 3-1 Cards of the ISCOM6800 ........................8 Table 3-2 Card types of the ISCOM6800 .......................
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Table 6-5 LEDs on the RPA2161-SI-220S54 ....................... 57 Table 6-6 Technical specifications of the RPA2161-SI-220S54 ................57 Table 7-1 LEDs on the ISCOM6800 ........................59 Table 8-1 Weight and power consumption of the ISCOM6800 ................61 Raisecom Proprietary and Confidential xiii...
Raisecom ISCOM6800 (A)Hardware Description 1 Chassis Chassis This chapter describes the chassis of the ISCOM6800, including the following sections: Appearance Structure Slot distribution Capacity assignment Technical specifications 1.1 Appearance The ISCOM6800 is an xPON incorporate optical access device developed by Raisecom, accessing high-capacity, high-speed, and high-bandwidth data, voice, and video services to meet carriers' requirements on the xPON construction concept, namely, "high capacity, few...
Figure 1-1 Appearance of the ISCOM6800 1.2 Structure The ISCOM6800 adopts the chassis+card modular design to facilitate customers to choose the quantity of downlink/uplink cards and card types flexibly. Moreover, it supports network expansion based on redundant slots and service expansion based on new service cards.
Support hot swapping. The fan module adopts the double buffering startup scheme, which increases the stability of hot swapping. 2.2 Appearance The FANS382 is installed on the top of the ISCOM6800. The appearance is shown in Figure 2-1. Raisecom Proprietary and Confidential...
Multi-function environment monitoring card (CICA) DC power supply card (RPD2151) 3.1 Overview 3.1.1 Appeance and dimension Cards on the ISCOM6800 differ in type, appearance, and dimensions, as listed in Table 3-1. Table 3-1 Cards of the ISCOM6800 Type Appearance Dimensions (Width ×...
Definitions of width, depth, and height are shown in the right figure. Height and width define the dimensions of a card while depth defines the depth of the PCB. 3.1.2 Types Table 3-2 lists card types of the ISCOM6800. Table 3-2 Card types of the ISCOM6800 Type Name...
Support upgrading system software through the CF card. Card protection Support card 1+1 redundant backup and hot swapping. 3.2.2 Panel and slots The SMCA card can be inserted in the following slots of the ISCOM6800 chassis: Slot 9 ...
3.3 16-way EPON services card (EP16) 3.3.1 Functions The EP16 card is an EPON service card of the ISCOM6800. Each card provides 16 SFP EPON interfaces, which are placed at a 30° angle. Table 3-11 lists functions of the EP16 card.
Support IEEE 802.3ah OAM. Ethernet OAM Support IEEE 802.3ah MPCP. 3.3.2 Panel and slots The EP16 card can be inserted into the following slots of the ISCOM6800 chassis: Slots 1–8 Slots 11–16 Figure 3-3 shows the panel of the EP16 card.
3.4 8-way GPON service card (GP8A) 3.4.1 Functions The GP8A card is a GPON service card of the ISCOM6800. Each card provides 8 SFP GPON interfaces, which are placed at a 30° angle. Table 3-15 lists functions of the GP8A card.
3.5 16-way GPON service card-(GP16) 3.5.1 Functions The GP16 card is a GPON service card of the ISCOM6800. Each card provides 16 SFP GPON interfaces, which are placed at a 30° angle. Table 3-19 lists functions of the GP16 card.
3 Cards 3.6 8-way 10GEPON service card (XEP8) 3.6.1 Functions The XEP8 card is a 10GEPON service card of the ISCOM6800. Each card provides 8 XFP PON interfaces. Table 3-23 lists functions of the XEP8 card. Table 3-23 Functions of the XEP8 card...
3 Cards 3.7 16-way GE service card (GE16) 3.7.1 Functions The GE16 card is a GE service card of the ISCOM6800. Each card provides 16 GE optical interfaces. Table 3-27 lists functions of the GE16 card. Table 3-27 Functions of the GE16 card...
Maximum power consumption 3.8 2-way 10GE service card (XP2A) 3.8.1 Functions The XP2A card is a 10GE service card of the ISCOM6800. Each card provides 2 SFP+ optical interfaces. Table 3-31 lists functions of the XP2A card. Table 3-31 Functions of the XP2A card...
13 W 3.9 4-way 10GE service card (XP4A) 3.9.1 Functions The XP4A card is a 10GE service card of the ISCOM6800. Each card provides 4 SFP+ optical interfaces. Table 3-35 lists functions of the XP4A card. Table 3-35 Functions of the XP4A card...
35 W 3.10 4-way 10GE service card (XP4L) 3.10.1 Functions The XP4L card is a 10GE service card of the ISCOM6800. Each card provides 4 SFP+ optical interfaces. Table 3-39 lists functions of the XP4L card. Table 3-39 Functions of the XP4L card...
Support overtemperature protection. Support input surge current inhibition. 3.12.2 Panel and slots The RPD2151 card can be inserted into the following slots of the ISCOM6800 chassis: Slot 23 Slot 24 Figure 3-12 shows the panel of the RPD2151 card.
These two kinds of fiber are the same in appearance but different in color. The yellow one is a SMF and the orange one is a MMF. The ISCOM6800 can be connected to the Optical Distribution Frame (ODF) or optical interfaces of other devices through fiber.
Raisecom ISCOM6800 (A)Hardware Description 4 Cables Usage Local connector Remote connector Type Standard Connect the ISCOM6800 to the SC/PC LC/PC 2 mm SMF ODF through the PON interface. SC/PC FC/PC 2 mm SMF SC/PC SC/PC 2 mm SMF Choose the connector type and jumper cable length reasonably based on the on- site requirements.
Connect the SNMP interface of the ISCOM6800 to the NView NMS system. The Ethernet interface on the ISCOM6800 is self-adaptive to straight-through cable mode and crossover cable mode. So both kinds of Ethernet cables can be used. The Ethernet cable needs to be made on site.
2-meter cables, they are named CBL-ETH-RJ45/RJ45-2m/RoHS. 4.3 Configuration cable 4.3.1 Introduction The configuration cable is used to connect the Console interface of ISCOM6800 and network management computer, to help you configure the ISCOM6800 through the network management computer. Raisecom Proprietary and Confidential...
Raisecom ISCOM6800 (A)Hardware Description 4 Cables 4.3.2 Appearance The configuration cable used by the ISCOM6800 has two connectors: DB9 connector and RJ45 connector. Figure 4-6 shows the appearance of the configuration cable. Figure 4-6 Configuration cable 4.3.3 Wiring Figure 4-7 shows the appearance and connection mode of the RJ45 Console cable.
The configuration cable is for connecting the ESC interface of the ISCOM6800 with the monitoring device. 4.4.2 Appearance The ESC connector used by the ISCOM6800 is a RJ45 connector, as shown in Figure 4-8. Figure 4-8 Appearance of the ESC interface 4.4.3 Wiring Table 4-8 shows appearance and wiring of the RJ45 ESC cable.
4.6.1 Introduction The ground cable is used to ground the ISCOM6800. 4.6.2 Appearance The ground cable is composed of two grounding terminals and the coaxial cable. In general, grounding terminals are OT non-insulated terminals, and the coaxial cable is a yellow/green flame-retardant conducting wire.
5–4 AWG (16–25 mm conducting wire The ISCOM6800 is delivered without the ground cable. If required, prepare or make ground cables on site. The ground cable cannot be longer than 30 m and should be as short as possible;...
Raisecom ISCOM6800 (A)Hardware Description 5 Pluggable optical modules Pluggable optical modules This chapter describes pluggable optical modules of the ISCOM6800, including the following sections: GE SFP optical module 10GE SFP+ optical module PON SFP module We recommend using Raisecom optical modules on the ISCOM6800. These optical modules match with the ISCOM6800 well in the research and development phase, thus they can provide optimal performance metrics and decrease faults.
It is integrated with sending and receiving features. Figure 5-3 shows the appearance of the SFP+ optical module. Figure 5-3 SFP+ optical module The 10GE service interface on the ISCOM6800 supports the optical module of the following types: ...
Figure 5-4 shows the appearance of the PON SFP module. Figure 5-4 PON SFP module 5.3.2 Label Available modules for the PON service interfaces of the ISCOM6800 are shown as below: 1000BASE-PX20-D (EPON) Class B+ (GPON) ...
Blank panel 1600 W embedded power supply system 6.1 Wind guide frame 6.1.1 Appearance WGF-01 is a wind guide frame of the ISCOM6800, supporting heat dissipation, dust prevention, and cable management, including the following modes: WGF-01 WGF-02 The difference between WGF-01 and WGF-02 is that the WGF-02 is an extended cable management frame.
The wind guide frame is installed under the device and the fan module is installed on the top of the chassis. So the ISCOM6800 adopts the air updraft method to realize ventilation and heat dissipation. The cooling air enters from the front panel of the wind guide frame, passes through each card in the chassis, and is exhausted from the top of the chassis.
Ensure correct ventilation of cooling air inside the chassis. 6.2.2 Appearance The ISCOM6800 supports 4 types of blank panels according to different slots. There is no LED, interface, or print on the blank panel. Figure 6-3 shows the appearance of the blank panel.
S10-01 blank panel (2.25 U)/RoHS 97 mm (Width) × 25 mm (Height) 6.3 1600 W embedded power supply system The ISCOM6800 adopts the 1600 W embedded power system: 110/220 VAC power supply RPA2161-SI-220S54. 6.3.1 Functions The RPA2161-SI-220S54 is installed in the AC-powered chassis.
Raisecom ISCOM6800 (A)Hardware Description 7 Lookup table for LEDs Lookup table for LEDs Table 7-1 lists LEDs on the chassis and cards of the ISCOM6800. Table 7-1 LEDs on the ISCOM6800 Status Description Green Power supply LED Green: the power supply is working properly.
8 Lookup table for weight and power consumption Lookup table for weight and power consumption Table 8-1 lists weights and power consumption of the chassis and cards of the ISCOM6800. Table 8-1 Weight and power consumption of the ISCOM6800 Component...