http://www.emc2000.co.kr Appendix 6. FCC TEST REPORT Report No.: EMC-FCC-R0067 User manual EMC compliance Ltd. Page: 1 of 1 480-5 Shin-dong, Yeongtong-gu, Suwon-city, Gyunggi-do, 443-390, Korea 82 31 336 9919 (Main) 82 31 336 4767 (Fax) This test report shall not be reproduced except in full, Without the written approval. PON ONT Overview Key Features 2 The CS6204W is an ONT (Optical Network Terminal) based on EPON technology for home and small office. It supports 4 Fast Ethernet (UTP, RJ45) ports, 2 FXS (RJ -
11) ports, and Wi-Fi (802.11 b/g/n) interface to the subscriber. It is connected to GE-PON OLT (Optical Line Terminal) and RN (Remote Node) via a fiber optic cable to provide internet and voice service. CS6204W is connected to the IP terminal devices such as a subscribers home-
gateway, PC, laptops, smart phones or VoIP phone. It provides internet service, VoIP, and Wi-Fi service at the speed of up to 300 Mbps per subscriber. CS6204W allows up to 32 subscribers to share the data of 1.25Gbps with one optic cable via passive optical distribution device. It adopts the state-of-the-art E-PON technology. By adopting the state-of-the-art E-PON technology, CS6204W supports various functions, superior to those of the existing Ethernet switch, including QoS (Quality of Service) function, management function that enables prompt actions to be taken against the problems in the system and a subscriber line, security function that secures subscriber information safely, and subscriber management function that secures user information from illegal users such as crackers. Supports IEEE 802.11b/g/n standard. 2 FXS Phone Line(RJ-11) Interface for VoIP service Supports WEP 64-bit / 128-bit Security password authentication and WPA, WPA2. Powerful internet sharing function Supports IEEE 802.1q VLAN Configuration function. 4 Ethernet LAN ports supported 10/100Mbps and one 1.25G EPON port for WAN Supports ProDHCP function (Server/Client). Supports specific application, virtual server, DMZ, Access Control and Firewall. The management program based on WEB and GUI Remote system management via Internet and software upgrade 3 Installation Guide PON ONT Contents of the Package CS6204W Power Adaptor RJ45 Cable Installation Guide Precautions Warning Before you install the CS6204W, read this section. This section contains important safety information you should know before working with the system. Power Considerations Be careful when connecting the system to the supply circuit so that wiring is not overloaded. When plugging in a power socket or handling any power source, avoid ring, necklace, metal watch for better safety. If these materials touch the power socket or ground of the product, the parts can be burnt out. Always make sure if there is any possible danger in the workshop. Wet floor, ungrounded extension, rubbed-off power code, or unsafe (or ungrounded) floor might be dangerous. Installing and Servicing the System Disconnecting Power Before installation, the power switch of the system should be turned OFF and disconnect all power and external cables. Remove all jewelry (including rings and chains) or other items that could get caught in the system or heat up and cause serious burns. Do not work alone under potentially hazardous conditions. Do not perform any action that creates a potential hazard to people or makes the equipment unsafe. When disconnecting power, note the following guidelines. Locate the emergency power-off switch for the room before working with the system. PON ONT 4 Connecting Cables Working with Lasers Preventing EMI To completely turn off the system, disconnect the power connection to all power supplies. For DC power supplies, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the off position, and tape the switch handle of the circuit breaker in the off position. Do not touch the power supply when the power cord is connected. Line voltages are present within the power supply even when the power switch is off and the power cord is connected. When you connect cables, note the following guidelines. Do not work on the system or connect or disconnect cables during periods of lightning activity. If your system includes a fiber-optic port, note the following guidelines. To avoid exposure to radiation, do not stare into the aperture of a fiber-optic port. Invisible radiation might be emitted from the aperture of the port when no fiber cable is connected. Always keep unused fiber-optic ports capped with a clean dust cap. When you run wires for any significant distance in an electromagnetic field, electro magnetic interference (EMI) can occur between the field and the signals on the wires. Bad plant wiring can result in radio frequency interference (RFI). Strong EMI, especially when it is caused by lightning or radio transmitters, can destroy the signal drivers and receivers in the system, and can even create an electrical hazard by conducting power surges through lines and into the system. If Strong EMI occurs in the installation place, consult RFI experts to get rid of it. Disposing of the System Dispose of the system and its components (including batteries) as specified by all national laws and regulations. RF Exposure Compliance Issue This appliance and its antenna must not be colocated or operation in conjunction with any other antenna or transmitter. A minimum separation distance of 20 cm must be maintained between the antenna and the person for this appliance to satisfy the RF exposure requirements. PON ONT Installation 5 Warning Invisible laser radiation may be emitted from disconnected fibers or connectors. Do not stare into beams or view directly with optical instruments. 1. Connect the SC/APC connector on the side of a yellow single-mode optical fiber into the optical terminal of the optical outlet and the other connector into the PON port of CS6204W by pushing them until you hear a clicking sound. 2. Connect CS6204W and PC with Ethernet cable. 3. Connect CS6204W and Phone with RJ11 cable. 4. Connect the rated power adaptor (12V 1.5A) provided together with CS6204W main body. 1 2 3 4 PON Splitter 5. Turn on the power switch. 6. Make sure that the POWER LED is ON. 7. Make sure that LAN LED is ON. PON ONT 6 8. Make sure that the PON LED is ON in several seconds or minutes. If PON LED is red, the optical signal is very low, so please contact the carrier. 9. If everything is installed properly, the user can see the DATA LED blink while Internet data is sent / received. 10. If you set the wireless configuration properly, the user can see the applicable wireless device (Wireless) LED blink while data is sent or received. 11. If you set the connection of phone connector exactly, the user can see the Phone LED comes to light while voice data is sent or received. PON ONT System Architecture Front Panel 7 LED Name Color Status Function ON Power ON POWER BLUE Actions to take Normal Operation Check Power switch at the back OFF Power OFF panel->
Power adapter & power outlet ON Link Up (Normal) Normal Operation BLUE BLINK PON
(Every 1 sec) Link Down. Optic signal ON Call Service Provider RED PURPLE ON ON Optical signal has been lost Call Service Provider Link Up but optical signal is very low Call Service Provider DATA BLUE OFF No Data transmitting/receiving Call Service Provider BLINK Transmitting/receiving Data Normal Operation ON Ethernet Link Up Normal Operation LAN 1~4 BLUE BLINK Transmitting/Receiving Ethernet data Normal Operation Wireless BLUE OFF ON Ethernet Link Down Wireless Link Up Check cable at PCs Normal Operation BLINK Transmitting/Receiving Wireless data Normal Operation PON ONT OFF ON Wireless Link Down CALL Service Provider PHONE Link Up Normal Operation PHONE 1,2 BLUE BLINK Transmitting/Receiving voice data Normal Operation OFF PHONE Link Down CALL Service Provider 8 Rear Panel Indication Description PON Interface 1.25G PON Port WPS RESET Wi-Fi Protect Setup Resets the system to factory default. LAN 1~4 Fast Ethernet Ports PHONE 1~2 VoIP Ports ON/OFF Power Switch 12.0V 1.5 A Power Terminal PON ONT Troubleshooting:
9 Symptom: Can not access to the Internet;
Step 1 Make sure that the ONT is turned on. Once you turn on the power, the POWER LED on the front panel of CS6204W should be turned on. If the POWER LED is turned OFF, please check if the power cable is connected to the power inlet of ONT properly or switch of power strip if any is turned ON. If the problem persists, please call Service Provider. Step 2 Make sure that the optical line is connected properly. Once the optic fiber is connected, the PON LED on the front panel of CS6204W should be turned on within few seconds. If the PON LED blinks, call Service Provider to check the optical line connection. Step 3 Make sure that the LAN cable is connected properly. Once the LAN cable is connected and user PC is turned on, LAN LED should be turned on. If the LED is not turned on, check the cable connection Step 4 Make sure that network setting of your PC is correct. Select set to Obtain IP address automatically. Symptom: All the cables are connected, but still can not obtain IP address Step 1 Look for the Network Neighborhood or My Network Places icon in your desktop. If it is not there, try your Start Menu. Step 2 Right-click the Network Neighborhood/My Network Places icon. A drop-down menu will appear. Step 3 Choose the "Properties" option, generally found at the bottom of the menu. Step 4 Look for an icon named "Local Area Connection". The icon looks like a pair of computer connected by a link. Double-click this icon. Step 5 Click the "General" tab, if it is not already selected. You will see a list of protocols to choose form. Step 6 Scroll down and choose Internet Protocol (TCP/IP), and then click the button that is labeled "Properties". Step 7 Again, click the "General" tab, it is not already selected. You will see two choices:
1) "Obtain an IP address Automatically"
2) "Use the following IP address..."
Step 8 Choose 1) option Step 9 Click OK 10 PON ONT Specification Item Standard System Architecture Description IEEE 802.3ah Type Size (mm) Desktop 215(W) x 160(D) x 45(H) Power Output: 12V, 1.5A (power adaptor used) Input: 110~220 V 15%, 60 3Hz Available Interface Consumption: Max 10.0W PON interface User interface VoIP interface 1.25G 1000Base-PX, 1 Core SMF 4 10/100base-Tx (IEEE 802.3u) 2 FXS Phone Line Interface for VoIP (RJ-11) port Wi-Fi Interface 802.11b/g/n compliant
- Operating Temperature/humidity: 0~50, humidity: 20~90%
Environmental Condition
- Storage Temperature/humidity: -30~60/10%~90%
- In compliance with EMI/EMC Class B EPON
- IEEE802.3ah MPCP, OAM compliant
- 802.1Q VLAN
- Per LLID Filtering/Classification
- Supports up to four Logical Link IDs (LLID)
- AES-128 Downstream decryption
- Dying Gasp
- Automatic Plug and Play function for WAN PON Port (Discovery and Authorization)
- IEEE802.1Q VLAN Function and Performance L2 Features
- IEEE802.1D Spanning Tree Protocol
- Support up to 256 MAC Address L3 Features
- DHCP Function (Server)
- NAPT Function Multicasting IGMP v1/v2, IGMP proxy/snooping for IPTV service
- IEEE802.1P QoS
- Packet classification and marking (802.1P) Security & filtering
- MAC address limiting
- Rate limiting VoIP
- T.38 Fax
- G.711A/u, G.729, G.723, G.722 etc.
- Support different signals: dialing tone, ring back tone, etc. PON ONT System Operation and Link Measurement and Maintenance diagnostic 11
- Support SIP
- RTP / RTCP Support RFC 3550 & RFC 3551
- Support call waiting, call holding, call forwarding
- Three Party Service
- Support caller ID display (Type 1 and 2)
- Support DTMF
- Support OAM Remote Loop back test.
- OLT detects EPON Signal Strength to check the status of ONT signal received/transmitted based on
- Transmission distance: 10Km or 20Km(Optional) Physical Characteristics Optical characteristics
- Transmission quality: BER 10-10 or lower Dielectric resistance 100Mohm or higher (based on DC 500V)
- Transmission level : -1~4dBm
- IEEE Std 802.3-2002 Carrier sense multiple access with collision detection (CSMA/CD) access method and physical layer specifications
- IEEE Std 802.11n: Wireless Local Area Networks
- IEEE Std 802.1D, 1998 Edition Media Access Control (MAC) Bridges
- IEEE Std 802.1Q, 2003Edition Virtual Bridged Local Area Networks Technical Standard and Protocol
- IEEE Std 802.1w-2001 Media Access Control (MAC) Bridges Amendment 2: Rapid Reconfiguration
- IEEE Std 802.1s-2002 Virtual Bridged Local Area Networks Amendment 3: Multiple Spanning Trees
- IEEE Std 802.1X-2001 Port-Based Network Access Control
- IEEE Std 802.3ah.-2004 Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications Amendment:
- Media Access Control Parameters, Physical Layers, and Management Parameters for Subscriber Access Networks
- IEEE P802.1ad/D6.0 Draft Standard for Local and Metropolitan Area NetworksVirtual
- Bridged Local Area Networks Amendment 4: Provider Bridges