Ubee Interactive DDW3600 TI 4830 Wireless Cable Modem User Manual

Ubee Interactive Corp. TI 4830 Wireless Cable Modem

user manual

Ubee TI D3.0 WLCM Model Number: DDW3600 User Manual Rev. 1.0 November 12, 2009
◆ Important Safety Warnings "Installation" should include bonding the screen of the coaxial cable to the earth at the building entrance per ANSI/NFPA 70, the National Electrical Code (NEC), in particular Section 820.93, Grounding of Outer Conductive Shield of a Coaxial Cable. ◆ Installation Follow the procedures below to install the hardware. Figure 0 illustrates the connection relationship. 1. Connect one end of the coaxial cable (not included) to the CABLE port on the modem, and connect the other end to the cable wall outlet. Be sure not to bend or over tighten the cables as this may strain the connector and cause damage. If you plan to connect the modem and television to the same wall outlet, you must use a cable line splitter (not included). 2. Connect one end of the Ethernet cable to the ETHERNET port on the modem, and connect the other end to the Ethernet port on the PC. 3. Connect one end of the Phone line cable to the VoIP port on the modem, and connect the other end to the phone port of the phone set. 4. Connect one end of the DC power adapter to the POWER port on the modem, and connect the other end to an electric outlet on the wall. ◆ Connectors on the rear panel of the Modem This list of connectors describes where to connect the cables and power adapter when installing the cable modem. 1. POWER: This is where you plug the included power adapter. Remember to use only the power adapter that came with the Cable Modem. 2. GigE: This is where you plug the Ethernet cable. The other end connects to the Ethernet port on the PC or NIC. 3. RESET button: This is what you can reset the setting to factory default by pressing button on more than 10 seconds.
4. CABLE Connector: This is where you connect the coaxial cable (not included) that leads to the cable splitter (not included) or the cable wall outlet. 5. USB: This is where you plug the USB cable. The other end connects to the USB port on the PC. Figure 1 illustrates the connection relationship
◆ LEDs on the front panel of the Modem Please see the LED descriptions below. LED Color DESCRIPTION Power Green Indicates that the cable modem has successfully completed internal power-on tests. LED flashes if power-on fails. DS Green/Orange Indicates that data is being received from the cable network. Orange indicates more than one Channel is bonded. Green indicates that one Channel is bonded. Prior to registration, DS would flash slowly to indicate it’s looking for DS channel. Post-registration (READY LED is lit), DS would flash when traffic is being passed. US Green/Orange Indicates that data is being transmitted fromthe cable modem to the cable network. Orange indicates more than one Channel is bonded. Green indicates that one Channel is bonded. LED flash when traffic is being passed. Ready Green LED flashes slowly when performing upstream ranging. LED flashes quickly when acquiring IP Address and Configuration File. LED must remain off if device receives disable configuration file.
LED must be solid once registered with network. WLAN Green Indicates connectivity in the WiFi port LED flashes when traffic is being passed. WPS Green TBD LAN1 to LAN4 Green/Orange Indicates connectivity between the Ethernet port on the cable modem and the PC’s Ethernet port. LED flashes when traffic is being passed. Green indicates GbE. Orange indicates that 10/100/1000 is enabled. USB Green Indicates connectivity in the USB port LED flashes when traffic is being passed. ◆ Specification Operating Environment: 40 degree C max. DOCSIS RF Requirement Specification Table 3. DOCSIS RF Specification US-DOCSIS 2.0 Upstream Output Parameter Value Frequency 5 to 42MHz (edge to edge) Level range (one channel) TDMA; +8 to +54 dBmV (32QAM, 64QAM) +8 to +55 dBmV (8QAM, 16QAM) +8 to +58 dBmV (QPSK) S-CDMA: +8 to +53 dBmV (all modulation) Modulation Type QPSK, 8QAM, 16QAM, 32QAM, 64QAM, 128QAM and 256QAMModulation Rate (nominal) TDMA: 160, 320, 640, 1280, 2560 and 5120 kHz S-CDMA: 1280, 2560, and 5120 kHz Bandwidth TDMA: 200, 400, 800, 1600, 3200 and 6400 kHz S-CDMA: 1600, 3200 and 6400 kHz Output Impedance 75 ohms Output Return Loss > 6 dB (5 – 42 MHz) Connector F connector
US-DOCSIS 2.0 Downstream Output Parameter Value Center Frequency 91to 857 MHz (+/- 30 kHz) Level Range (one channel) -15 dBmV to +15 dBmV Modulation Type 64QAM, 256QAM and 1024QAM (Three Demodulators) Symbol Rate (nominal) 5.056941 Msym/s ( 64QAM) and 5.360537 Msym/s (256QAM) Bandwidth 6 MHz Total Input Power < 30 dBmV (40-900 MHz) Input Load Impedance 75 ohms Input Return Loss > 6 dB (88-860 MHz) Connector F connector DOCSIS 3.0 Upstream Output Parameter Value Frequency 5 to 42 MHz (edge to edge) Level range (one channel) TDMA/ATDMA; +17 to +57 dBmV (32QAM, 64QAM) +17 to + 58 dBmV (8QAM, 16QAM) +17 to +61 dBmV (QPSK) S-CDMA: +17 to +56 dBmV (all modulation) Modulation Type QPSK, 8QAM, 16QAM, 32QAM, 64QAM, 128QAM and 256QAMModulation Rate (nominal) TDMA: 160, 320, 640, 1280, 2560 and 5120 kHz S-CDMA: 1280, 2560, and 5120 kHz Bandwidth TDMA: 200, 400, 800, 1600, 3200 and 6400 kHz SCDMA Codes per Sub Frame 1 to 128 S-CDMA: 1600, 3200 and 6400 kHz Output Impedance 75 ohms Output Return Loss > 6 dB (5 – 42 MHz) Connector F connector US-DOCSIS 3.0 Downstream Output Parameter Value Center Frequency 88 to 1002 MHz (+/- 30 kHz)
Level Range (one channel) -15 dBmV to +15 dBmV Modulation Type 64QAM, 256QAM Symbol Rate (nominal) 5.056941 Msym/s ( 64QAM) and 5.360537 Msym/s (256QAM) Bandwidth 6 MHz (Alpha = 0.18 @ 64QAM & 0.12 @ 256QAM) Capture Bandwidth Supporting four channel bounding on continuous 64MHz CBW Total Input Power < 36 dBmV Input Load Impedance 75 ohms Input Return Loss > 6 dB (88-1002 MHz) Connector F connector WLAN RF Requirement Specification a) frequency rage: 2.412GHz to 2.462GHz b)EUT frequency list: the following frequency is point to centre frequency 1.There are 11 channel at 802.11 b/g/ n model HT20 Channel ID Frequency (MHz) FCC(USA)1 2412 O 2 2417 O 3 2422 O 4 2427 O 5 2432 O 6 2437 O 7 2442 O 8 2447 O 9 2452 O 10 2457 O 11 2462 O
There are 7 channel at 802.11 b/g/ n model HT40 Channel ID Frequency (MHz) FCC(USA)3 2422 O 4 2427 O 5 2432 O 6 2437 O 7 2442 O 8 2447 O 9 2452 O c)modulation: Standard Data Rate (Mbps) modul. codingDSSS-CCK 1 BPSK DSSS-CCK 2 QPSK DSSS-CCK 5.5 CCK 11b DSSS-CCK 11 CCK OFDM 6 BPSK 9 QPSK OFDM 12 QPSK OFDM 18 QPSK OFDM 24 16QAM OFDM 36 16QAM OFDM 48 64QAM 11g OFDM 54 64QAM 3/4MCS8 13 BPSK 1/2MCS9 29 QPSK 1/2MCS10 39 QPSK 3/4MCS11 52 16QAM 1/2MCS12 78 16QAM 3/4MCS13 104 64QAM 2/3MCS14 117 64QAM 3/411n 20MHz 2 streams MCS15 130 64QAM 5/6MCS8 27 BPSK 1/211n 40MHz 2 streams MCS9 54 QPSK 1/2
MCS10 81 QPSK 3/4MCS11 108 16QAM 1/2MCS12 162 16QAM 3/4MCS13 216 64QAM 2/3MCS14 243 64QAM 3/4MCS15 270 64QAM 5/6 Test Channels Rates Mbps Conditions Mode Antenna Limits Tx power 802.11g 1,6,11 6 @target power 20dBm 0&2 802.11g 1,6,11 36 @target power 20dBm 0&2 802.11g 1,6,11 48 @target power 19dBm 0&2 802.11b 1,6,11 @target power 19dBm 0&2 802.11n 1,6,11 MCS0/8 @target power 20dBm HT20/40 0&2 802.11n 1,6,11 MCS4/12 @target power 20dBm HT20/40 0&2 802.11n 1,6,11 MCS5/13 @target power 18dBm HT20/40 0&2 802.11n 1,6,11 MCS6/14 @target power 14dBm HT20/40 0&2 802.11n 1,6,11 MCS7/15 @target power 12dBm HT20/40 0&2 +/-2dB(expect the band edge power) Test Channels Rates Mbps Conditions Mode Antenna Limits Tx Spectral Mask 802.11g 6 @+/-9MHz offset 0&2 0dBr 802.11g 6 @+/-11MHz offset 0&2 -20dBr 802.11g 6 @+/-20MHz offset 0&2 -28dBr 802.11g 6 @+/-30MHz offset 0&2 -40dBr 802.11n 6 @+/-9MHz offset HT20 0&2 0dBr 802.11n 6 @+/-11MHz offset HT20 0&2 -20dBr 802.11n 6 @+/-20MHz offset HT20 0&2 -28dBr 802.11n 6 @+/-30MHz offset HT20 0&2 -45dBr 802.11n 6 @+/-19MHz offset HT40 0&2 0dBr 802.11n 6 @+/-21MHz offset HT40 0&2 -20dBr 802.11n 6 @+/-40MHz offset HT40 0&2 -28dBr 802.11n 6 @+/-60MHz offset HT40 0&2 -45dBr Channel Accuracy 802.11g/n 6 @2437MHz center frequency( 25±3℃) 0&2 +/-25ppm
Packet Error Rate (PER) 802.11g 1,6,11 @date rate=6,36,48,54 Mbps 0&2 <10% 802.11n 1,6,11 @date rate=MCS0/8, MCS5/13, MCS6/14 & MCS7/15 HT20 0&2 <10% 802.11n 1,6,11 PER<10% @date rate=MCS0/8, MCS5/13, MCS6/14 & MCS7/15 HT40 0&2 <10% Receiver Sensitivity Test 802.11g 1,6,11 @10% PER/1000 Byte Pack size/48,54Mbps 0&2 <-70dBm802.11n 1,6,11 @10% PER/1000 Byte Pack size/ MCS6/14 & MCS7/15 HT20 0&2 <-68dBm802.11n 1,6,11 @10% PER/1000 Byte Pack size/ MCS6/14 & MCS7/15 HT40 0&2 <-63dBm ◆ Safety Notices 1. When this device is placed upright with the aid of the stand, the stand must be fixed at a 90 degree angle to the cable modem;otherwise the device will have the risk of tipping over. 2. "Installation" should include bonding the screen of the coaxial cable to the earth at the building entrance per ANSI/NFPA 70, the National Electrical Code (NEC), in particular
Section 820.93; Grounding of Outer Conductive Shield of a Coaxial Cable. 3. The device is also designed for IT power system with phase to phase voltage 120V. 4. How to disconnect device. The power plug shall be installed near the cable modem and shall be easily accessible. If abnormality happens to the cable modem, disconnect the power plug from the AC wall outlet immediately."
10FCC Notice This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Federal Communication Commission Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures: - Reorient or relocate the receiving antenna. - Increase the separation between the equipment and receiver. - Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. - Consult the dealer or an experienced radio/TV technician for help. THE MANUFACTURER IS NOT RESPONSIBLE FOR ANY RADIO OR TV INTERFERENCE CAUSED BY UNAUTHORIZED MODIFICATIONS TO THIS EQUIPMENT. SUCH MODIFICATIONS COULD VOID THE USER’S AUTHORITY TO OPERATE THE EQUIPMENT. To comply with FCC RF exposure compliance requirements, a separation distance of at least 20 cm must be maintained between the antenna of this device and all persons. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.

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