Canon DXC-D35L/D35PL Digital Camera User Manual
Contents
1. 511 511 Il dm Model 3088RC D DCE or DTE n ao Figure 16 Connecting the Model 3088RC D V to 21 or DCE The DCE DTE strap is located on the daughter board The arrows on the top of the strap indicate the configuration of the X 21 port for example if the DCE arrows are pointing toward the front of the rack card the unit is configured as a DCE Similarly if the DTE arrows are pointing toward the front of the rack card the unit is configured as a DTE 43 4 6 CONNECTING THE 3088RC K K E1 INTERFACE The Model 3088RC K K is a rear mountable G 703 G 704 interface card that works with the Patton Model 3088RC function card The two cards meet inside the rack chassis and plug into each other by way of mating 50 pin card edge connectors Use the following steps as a guideline for installing each Model 3088RC K K and its function card mate into the rack chassis 1 Slide the rear card into the back of the chassis along the metal rails provided 2 Secure the rear card using the metal screws provided 3 Slide the front card into the front of the chassis It should meet the rear card when it s almost all the way into the chassis 4 Push the front card gently into the card edge receptacle of the rear card It should click into place 5 Secure the front card using the thumb screws 4 7 CONNECTING THE 3088RC C AI ETHERNET INTERFACE The Model 3088RC C AI is a rear mountable ethernet i2. ER Figure 3 1001RCM115XX strap locations The table below provides an overview of interface strap functions for the rear interface cards Following the table overview are detailed descrip tions of each strap s function Strap Function Position 182 Position 283 OTE Shield Pint amp FRGND FRGND SGND Pin 8 Indicates default setting 26 DTE Shield DB 15 Pin 1 8 FRGND JB3 In the connected position this strap links DB 15 pin 1 8 frame ground In the open position pin 1 is disconnected from frame ground Position 182 DTE Shield Pin 1 and FRGND Connected Position 283 DTE Shield Pin 1 and FRGND Not Connected SGND 8 FRGND JB4 In the connected position this strap links DB 15 pin 8 Signal Ground and frame ground through a 100 ohm resistor In the open position pin 8 is connected directly to frame ground Position 182 SGND Pin 8 and FRGND Connected through a 100 ohm resistor Position 283 SGND Pin 8 and FRGND Directly Connected 3 8 CONFIGURING THE E1 REAR CARD The E1 rear card features configuration capability via hardware switches and jumpers Sections 4 1 and 4 2 describe all switch and jumper config urations for the 3088RC K model Section 4 3 describes the configura tion required for your mDSL modem DIP Switch Configuration The E1 card has eight internal DIP switches 51 1 through S1 8 The DIP switches can be configured as either On or Off S
3. a 36 e e 36 InStallallOD quos cue na vats cuc la one Eas ai uL dE oue 37 The Model 1001R14 rack chassis 37 Th Rack Power Supply usce i e aec oc eee a 37 Powering Up Your 1001R14 38 Installing Model 3088RC series into the chassis 38 Connecting the Twisted Pair 39 Connecting the Model 3088RC A I V 35 serial interface 41 Connecting the Model 3088RC A I V 35 to a DTE device 41 Connecting the Model 3088RC A I V 35 to a DCE device 42 Connecting the Model 3088RC D V X 21 serial interface 43 Connecting the Model 3088RC D V X 21 to a DCE or DTE de Vie TH RETRO EUER EHE ERE 43 Connecting the 3088RC K K E1 Interface 44 Connecting the 3088RC C AI Ethernet Interface 44 Operations a dee 45 LED Status indicalors eerte sis ses od 45 FOSE NOE Sie x V 46 WOOD SORS ediscere Tae nina Cited 46 PATIO IS nn 47 Remote Console Operation 47 Establishing a Remote Console Session 47 HOW tO COLIPIBOL oco a d catu A Sid 47 HOW lOXDISCODLDIGCL te Ins ace a dan e oa d eminet ns 49
4. The timeout period is a fixed non configurable parameter of 5 minutes If the remote 3088RC far end has received no command within 5 min utes it automatically terminates the RCS Once the RCS is terminated the PC far end can establish a local console session if desired How ever if the PC near end wishes to re establish a RCS it is able to do so whether or not the PC far end is in an active local session because the RCS has priority over a local console session If the PC near end establishes an RCS while the PC far end is on a local session the PC far end is kicked off Differences in Local and Remote Control Session Behavior Since the remote console session communication occurs over the G SHDSL link s EOC channel some commands via the RCS have unusual effects system upgrade Do not issue this command via an RCS A system upgrade must be done via the local console connection If you should accidentally issue this command over an RCS the remote 3088RC far end waits indefinitely for input which is the system upgrade image from the local console port of the 3088RC far end If this command is entered 3088RC Far End will have to be power cycled Do not attempt a software upgrade of the remote unit over the Remote Control Session CAUTION Remote Console Session RCS LAL PC bw Far End Near End 3088 3088 Near End Far End DSL Figure 23 Remote control session with L
5. s12 sta s14 sts srs s17 kbps ON ON ON OFF 704 ON ON ON ON 90 ON OFF OFF OFF ON Data Rate s12 sta sts srs s17 kbps ON ON ON ON ON ON ON OFF OFF OFF 15 S1 8 TX Clock No oo _ TD sampled on falling edge of TX clock TD sampled on rising edge of TX clock S2 1 Front Panel Switches The 3088RC uses front panel switches to control test modes They may be disabled so that the 3088RC ignores them S24 Front Panel Switches Disabled Enabled S2 2 Line Probe Line probe is a mechanism that determines the highest rate 192K to 2304K that the DSL link can reliably support This takes place during training The DSL rate will be set to the rate that line probe determines Note that both the CO and CPE unit must have line probe enabled for it to take effect Line probe could be used to determine the best rate the line will Support and then the user could set the units for that rate and disable line probe so that the rate won t change without the user s knowledge Line Probe Disabled Enabled S2 3 Annex A B Annex A is typically used in North American like networks whereas Annex B is typically used in European like networks The different annexes specify different PSD power spectral density masks because of the difference in T1 and E1 PSDs S2 4 through S2 5 Clock Mode The RocketLink G can operate in one of three clock
6. Differences in Local and Remote Control Session Behavior 50 SOItwate ke de ei lien 51 Reset Configuration to Factory 52 Specifications a n ka a n n k n Baka kal 53 AOC IG NOC SN e tate e ia a a pe kan ae 53 Rd da e ss bel 53 S TAlIM MHAC ou dad 53 CON MEE TON T M 53 ENAONO SUE Se m 53 SHS LEDS es alae a T 53 GON MOUN AU OM etico REN as 54 T AS MISSION line 2 oo ouka ef ai eden caede o eee ecce 54 54 Line rates DSL een te e 54 T a 102 q fe actas More tus ee 54 Gon SE DINYSISYICOANSEUON nocitura AR Ress 54 ENVIRO IMEI Abr mederi Rotes teka dan D DN UO ERAS a te EL e 54 Model 3088RC Interface Pin Assignments 55 DSL PON etg abdo i iesu aptam 55 B RAR celi e vote 55 rs G1 2 ae tb ba e ae 56 Pa ING cl ges Clo ONE 56 FH5 232 CODnsole ISIC Coo mete ns mae epe tee 57 1 0 WARRANTY INFORMATION Patton Electronics warrants all Model 3088RC components to be free from defects and will at our option repair or replace the product should it fail within one year from the first da
7. The front card of the power supply slides in from the front and the rear card slides in from the rear They plug into one another in the middle of the rack The front card is then secured by thumb screws and the rear card by conventional metal SCrews There are no user serviceable parts in the power supply section of the Model 3088RC Series Voltage setting changes and fuse replacement should only be per formed by qualified service personnel Contact Patton WARNING Electronics Technical support at 301 975 1007 for more information 37 Powering Up Your 1001R14 Rack Note The power supplies that come with your 1001R14 rack system are equipped with a power entry connector on the rear card The power supplies are Hot Swappable so you are not required to remove the cards from the rack while applying power to the sys tem When a power cable is connected between the unit and an appropriate power source a green LED on the front panel will glow to indicate that the unit is working properly Since the Model 1001R14 is a hot swappa ble rack it is not necessary for any cards to be installed before applying power The power may be removed at any time without harming the installed cards Note Please refer to the Model 1001RP14 Series User Manual AC amp DC Rack Mount Power Supplies for fuse and power card replacement information 4 2 INSTALLING MODEL 3088RC SERIES INTO THE CHASSIS The Model 3088RC Series is comprised of a front card
8. and a rear card The two cards meet inside the rack chassis and plug into each other by way of mating 50 pin card edge connectors Use the following steps as a guideline for installing each Model 3088RC Series into the rack chassis 1 Slide the rear card into the back of the chassis along the metal rails provided 2 Secure the rear card using the metal screws provided 3 Slide the front card into the front of the chassis It should meet the rear card when it s almost all the way into the chassis 4 Push the front card gently into the card edge receptacle of the rear card It should click into place 5 Secure the front card using the thumb screws 38 4 3 CONNECTING THE TWISTED PAIR INTERFACE The Model 3088RC supports communication between two DTE devices as follows The interconnecting cables shall be acceptable for external use and shall be rated for the proper applica tion with respect to voltage current anticipated tem CAUTION perature flammability and mechanical serviceability Using 24 AWG 0 5 mm wire up to 32 000 feet 9 7 km at 192 kbps 18 500 feet 5 6 km at 2 312 Mbps Using 26 AWG 0 4 mm wire up to 23 000 feet 7 km at 192 kbps 13 200 feet 4 km at 2 312 Mbps Two things are essential 1 These units work in pairs Both units at the end of the twisted pair DSL span must be set for the same DTE rate one unit set as CO the other as CP 2 To function properly the Model 3088RC ne
9. as its DSL transmit clock and as the serial receive clock Note X 21 External Clock Mode The X 21 interface expects the DCE to provide the clock used for both transmitting data and for sampling receive data When the 3088RC DN is set as a DCE it may be used in internal or receive recover clock modes The DSL generates a clock that is provided to the X 21 interface When the 3088RC DN is a DTE it may be used in external clock mode The X 21 interface needs to provide the clock This clock is used by the DSL to sample the serial data and also to update the receive data The 3088RC is set for either DCE or DTE by flipping the daugh ter card The 3088RC is a DCE if DCE points toward the front of the 3088RC System set dteif normalle12 Set to E1 if the rear card is Model 3088RC K K Set to normal for all other models The following commands allow the user to view the current system configuration 22 system show config Shows the configuration of the entire system including DSL and serial T1 E1 lines Any changes to the system configuration or the DSL configuration will be lost on the next power cycle unless the changes are saved The com mand system save config is used to save the changes System Status Commands The following commands show system status system show status Shows the following system status information LEDs DSL test mode front panel switch settings DSL link state and configuration mode DS
10. or Carrier Detect DCD from base unit are not asserted 4 pulses IMRC2 IA buffer is saturated 5 pulses WAN receive frame s too large 6 pulses WAN receive frame s not Octet aligned 7 pulses WAN receive frame s aborted 8 pulses Detected WAN receive frame s with bad CRC 9 pulses Detected LAN receive frame s too large 10 pulses Detected LAN receive frame s not Octet aligned 11 pulses Detected LAN receive frame s with bad CRC After a status code is displayed eight times and the associated condition is removed the status code will no longer appear Link Glows green to indicate good link integrity on the 10Base T twisted pair line 36 4 0 INSTALLATION This section describes the functions of the Model 1001R14 rack chassis tells how to install front and rear Model 3088RC Series cards into the chassis and how to connect to the twisted pair interface and the serial interface 4 1 THE MODEL 1001R14 RACK CHASSIS The Model 1001R14 Rack Chassis Figure 12 has fourteen short range modem card slots plus its own power supply Measuring only 3 5 high the Model 1001R14 is designed to occupy only 2U in a 19 rack Sturdy front handles allow the Model 1001R14 to be extracted and transported conveniently Figure 12 Model 1001R14 Rack Chassis with power supply The Rack Power Supply The power supply included in the Model 1001R14 rack uses the same mid plane architecture as the modem cards
11. plane architecture which allows front cards to be plugged into different rear cards For more information refer to the Model 1001RP14 Manual for more information on the power supply options that are available The NTU features externally accessible DIP switches loopback diagnos tics SNMP HTTP remote management capabilities using RocketLink Plug n Play as well as in band management 2 3 SERIAL INTERFACE TYPES The Model 3088RC versions listed below provide the following types of built in serial interfaces 3088RC A I provides V 35 interface on an M 34 female connector 3088RC C AI provides a Ethernet interface on an RJ45 connector 3088RC D V V provides a X 21 interface on a DB 15 female connector 3088RC K K provides a E1 interface on either an RJ48 C connector or dual BNC 3 0 CONFIGURATION This section describes the location and orientation of the Model 3088RC s configuration switches and jumpers and provides detailed instructions for all possible settings Each 3088RC model has different configuration requirements depending on the card s serial interface You can configure the 3088RC using either the software CLI via a 1001CC port or the hardware via DIP switches 3 1 ABOUT SOFTWARE CLI CONFIGURATION To use software configuration you must set DIP switches S1 and S2 to the ON position and set DIP Switch S3 to the management address before powering up the RocketLink G When DIP switches S1 and S2 are set
12. still be loaded to bring the unit back to an operational state Here is the software upgrade procedure 1 Remove all cards from the rack except for the card that you intend to upgrade 2 Obtain the software image Hex file for the 3088RC 3 Turn off the Model 3088RC 4 Make a note of the current DIP switch settings then set all DIP switches to the OFF position 5 Turn on the Model 3088RC 6 Configure HyperTerminal for 19200 bps 8 bits 1 stop bit no parity XON XOFF 51 7 8 9 Open Model 3088RC Console via HyperTerminal or other terminal emulation program gt gt Transfer gt gt Send Text File gt gt Set Files of Type to All files gt gt Select 033252Z hex When the transfer completes turn off the Model 3088RC Set the DIP switches for the proper configuration 10 Turn on the Model 3088RC It now operates with the upgraded soft ware 5 5 RESET CONFIGURATION TO FACTORY DEFAULT The configuration can be reset to factory defaults from the software reset mode This allows a user to recover from a forgotten password To reset to the configuration follow these steps 1 2 Power down the unit Set all DIP switches to the OFF position Connect a PC to the Console port Open a VT100 terminal emulator such as HyperTerminal Config ure the emulator for 19200 bps 1 stop bit no parity X ON X OFF flow control Note The 3088RC will not wait for its address
13. timed out 6 Enter the password at the password prompt for the remote console session Note The passwords for local console session of the 3088RC near end and the remote console session of the 3088RC far end should be different for the purpose of security 7 You should now be logged into the remote 3088RC far end via the remote console session The communication with the remote 3088RC far end is essentially the same as having local console connection Note The local or remote 3088RC may be CO or CPE as long as there is one of each Either the CO or CPE unit may accept a remote console connection Note With a remote console session open a user at PC far end is blocked from using the local console Upon typing anything the 3088RC far end sends a message to the PC far end stating Console Remote console connection is open 48 Figure 22 is a screenshot of opening a typical remote console session E Tera Term COM1 VT PoR Fie Edt Setup Control Window Help DSL Configuration conpleted DSL Activated Log in to 3088RC Near End passuordi xxxx gt systen show status leds powcr on ds1 off tner off dsl test node loopback off pattern off rdl state Mae E a system show status command ther shows that DSL link is not up front panel suitches Up ye bon _ remote console command requests a Pe PO remote console session on 3088RC Far End gt Console Renote console
14. timed out trying to connect gt system show status Message informs us that the 3088RC Far End did not nni em respond and a remote tnor off console session was not opened dsl test node k meri eed off system show status command shows edi state idis that the DSL link state is success pattern state idle ber status idle errors 8 tine 8 front er switches enable nornal remote console command requesis a u2 norna del link state success remote console session on 3088RC Far End configuration mode sof gt renote console a Remote console connection established Message informs US that We are now connected to the 3088RC Far End console v password see We can now enter commands on the remote console Figure 22 Opening a typical remote console session How to Disconnect The remote console session ends under any of the following conditions The user enters the command logout Atimeout period of 5 minutes elapses since the user has entered a command to the console The DSL link drops The response upon logging out of the remote console session with the command logout is Console Hemote console connection lost The fol lowing is what is displayed upon a user s logging out of a remote console session after logging in gt remote console gt Console Remote console connection established password gt logout Console Remote console connection lost 49 gt
15. to ON the RocketLink G will operate in software configuration mode When set for software configuration mode the RocketLink G will read any configuration data previously saved to FLASH memory during system power up If no configuration data was previously saved to FLASH then the RocketLink G will load the factory default configuration from FLASH memory After power up you may use console commands or the Embedded Operations Channel EOC to modify the configuration parameters 3 2 ABOUT HARWARE DIP SWITCH CONFIGURATION To use DIP switch configuration you must first set the DIP switches to a position other than all OFF or all ON before powering up the RocketLink G When all the DIP switches are set to any position other than all OFF or all ON the RocketLink G will operate in hardware DIP switch config uration mode In DIP switch configuration mode the RocketLink G will read the DIP switch settings during system startup and configure itself according to the switch settings Once you power up the RocketLink G in DIP switch mode it will operate in DIP switch mode until powered down When operating in DIP switch mode you cannot change any configuration settings Changing the DIP switch settings while the device is running will not modify the operating configuration because the RocketLink G only reads the DIP switches during system startup f you attempt to modify the configuration by issuing console com mands the device will not exe
16. 0 ohm G 703 G 704 network channel No Connection 8 No Connection 7 Se 8 No Connection 6 6 TX 5 5 TX 4 3 No Connection 3 i RX 2 RX 1 Figure 5 120 ohm RJ 48C G 703 G 704 Interface 29 RJ 48C Cable 8 Wire 3088RC K G 703 G 704 SIGNAL PIN NETWORK SIGNAL RX 1 RX g Meee TX TA 6 RX TX d 22 2 RX Shield g Shield Shield B Shield Connect Dual Coaxial Cable 75 ohm to G 703 G 704 Network The 3088RC K model is also equipped with dual female BNCs TX and RX for connection to a 75 ohm dual coax G 703 G 704 network interface If your G 703 G 704 network terminates via dual coaxial cable use the dia gram below to make the proper connections The connector pinout and signals are shown in Figure 6 Network Lr TX uu 2 HX Data TO m Data FROM G 703 G 704 G 703 G 704 Network Network Figure 6 75 ohm Dual Coaxial G 703 Interface Note The outer conductor of the coax cables are isolated from system earth ground 30 3 9 CONNECTING THE ETHERNET REAR CARD The Model 3088RC C AI module plugs into Patton s1092ARC and 3088RC modems to provide Ethernet LAN extension The 3088RC C AI has no switches or jumpers and does not need to be configured How ever factors such as the type of medium throughput across the link and
17. 1 through 91 7 Data 14 S18 TX ClOCK stoa a USUS uS va ee 16 S2 1 Front Panel Switches 16 S2 2 LoT EOD out n on ei e oi es on de re 16 92 9 ANNEX A B a a tt ed te an ne on 16 52 4 through S2 5 Clock Mode 17 KAN OPOLA MON ki ENS 17 Ethernet operation RL 17 920 DT ODDSS a ne ee 18 52 7 Nt ffat T YO ee eie 18 53 1 through 53 8 Management Address 18 About System Reset Mode 18 Software Prades Ress ressentie 19 Configuration Reset to Factory 19 Configuring through the Console 19 Console Help Commands sees 21 System Configuration 22 System Status Commands seen 23 DSL Configuration Commands 23 DSL Status Command 24 DSL Clear Errcntrs Command 24 Configuring the V 35 Rear 25 Model 1001RCM13445 8 1001RCM134TB Strap Settings 25 DTE Shield M 34 Pin A 8 FRGND 25 SOND FRGND JBA 26 3 7 Configuring the X 21 Rear 26 3
18. 8 3 9 4 0 4 1 4 2 4 4 4 5 4 6 4 7 5 0 5 1 5 2 9 3 Model 1001RCM11545 amp 1001RCM115TB Strap Settings 26 DTE Shield DB 15 Pin 1 amp FRGND JB3 27 SGND amp FRGND JB4 27 Configuring the E1 Rear 27 DIP Switch Configuration 27 Switch 51 1 Line Coding 27 Switch 51 2 CRC 4 Multiframe 28 Switch 51 3 Clear Channel Mode 28 Switch 51 4 Through 51 8 Reserved 28 Jumper as wo baye e vd ane veu bb ca 28 Making Interface Connections 29 Connect Twisted Pair 120 ohm to G 703 G 704 Network 29 Connect Dual Coaxial Cable 75 ohm to G 703 G 704 Net ap ae ae as Aaa ane ner DU canes tere th ne DIM ass 30 Connecting the Ethernet Rear Card 31 Connecting the Interface Driver Board 32 Connecting to the 10Base T Ethernet 33 Connecting the 10Base T Ethernet Port to a Hub 34 Connecting the 10Base T Ethernet Port to a PC DTE 34 Connecting the Line Interface 34 LED Status MON NON Seye tinye nn 35 SAIS tal e as kte
19. AL diagram 50 dsl set loopback lal Do not issue this command over the RCS to the far end 3088RC If the far end goes into LAL the near end and far end 3088RC NTUS can no longer communicate over the RCS N Do not issue this command to a far end unit If you were to do so the near end 3088RC would no longer be able CAUTION to communicate with the far end 3088RC 5 4 SOFTWARE UPGRADE The Model 3088RC is software upgradeable through the console port Software images will be available in Intel Hex file format The software upgrade feature is available either by powering up the Model 3088RC with all DIP switches set to the OFF position or by enter ing the system upgrade command on the command line interface The software upgrade takes approximately 5 minutes to complete The 3088RC will print the screen while the software upgrade is in pro cess When the software upgrade completes it will print a message stat ing that it is complete and the number of errors if any that occurred Errors may occur during the software upgrade if the image is corrupt or if there is a disruption in the console port connection The Model 3088RC will print a message to the console port if it encounters any errors In the event of an error the portions of the old image may have been overwrit ten and the unit may not be able to boot into operational mode However the unit may still boot into the software upgrade so a new software image can
20. Base T Ethernet Port to a Hub The Model 3088RC C AI 10Base T interface is configured as DTE Data Terminal Equipment just like a 10Base T network interface card in a PC There fore it expects to connect to a 10Base T Hub using a straight through RJ 45 cable Use the diagram below to construct a cable to connect the 3088RC C AI to 10Base T Hub 3088RC C AI 10Base T Hub RJ 45 Pin No RJ 45 Pin No 1 TX 1 RA 2 TX 2 RX 3 RX 3 TX 6 RX 6 TX Connecting the 10Base T Ethernet Port to a PC DTE The Model 3088RC C AI 10Base T interface is configured as DTE Data Terminal Equipment If you wish to connect the 3088RC C AI to another DTE device such as a 10Base T network interface card in a PC you must construct a 10Base T crossover cable as shown in the diagram below 3088RC C AI 10Base T DTE RJ 45 Pin No RJ 45 Pin No 1 TX4 1 TX4 2 TX LT TX 3 RX LO me PON 6 RX 6 RX Connecting the Line Interface The Model 3088RC C AI is to be used with Patton function card access products i e 1092ARC There are two essential requirements for connecting the line interface on Model 3088RC C AI 1 These units work in pairs with one 3088RC C AI connected to another 3088RC C AI or IM1 I over 2 or 4 Wire Twisted pair 2 or 4 Wire operation is determined by the front function card 2 To function properly the Model 3088RC C AI needs one or two twisted pairs of metallic wire two or four wire The twi
21. DTE Interface Type The DTE interface type needs to be set based on the rear module Set to E1 if using the K model Set to normal if using any other model DTE Interface Type S3 1 through S3 8 Management Address Each rack card in a chassis must have a unique management address The 1001CC and 1001MC use this address to activate and deactivate the rack card s management interface This is necessary because all rack cards in a chassis communicate over the same bus so only one card can be active at a time This address can be set to any value between 0 and 255 Set S3 to the binary representation of the number ON 0 and OFF 1 S3 8 is the most significant bit 3 4 ABOUT SYSTEM RESET MODE To enter system reset mode switch all DIP switches to the OFF position and power cycle the unit You can use a VT100 emulator configured for 19200 bps 1 stop bit no parity XON XOFF flow control to access the console Upon restart you will see the message Reset Mode The 3088RC automatically communicates through the 1001CC in reset mode and does not wait for its address System reset mode provides two functions software upgrades and con figuration reset to factory defaults Software Upgrades The software is upgraded by waiting for the Reset Mode message Then the user can send an Intel HEX file supplied by Patton After the VT100 emulator has finished sending this file the 3088RC will respond with a mes sage stating how many e
22. Female Connector DCE Configuration Pinf Signal o O O LB SGND SonaGroun D Cr8 DearoSenj TD Transmit Data Receive Data TD Transmit Data B RD Receive Data B XTC External Transmit Clock XTC External Transmit Clock D RD RC Receive Timing RC Receive Timing TC Transmit Clock A TC Transmit Clock B moun A T 55 B 3 E1 INTERFACE RJ 48C female connector Signal Receive Ring Receive Tip Shield Transmit Ring Transmit Tip Shield No connection No connection B 4 X 21 INTERFACE D sub 15 female connector DTE DCE orientation Pine OOOO O O 5 1 indication A DCE Souree SGND Signal Ground T Transmit Data B DTE Source Control 5 CNN Ci CO 56 B 5 RS 232 CONSOLE INTERFACE RJ 45 non shielded connector EIA 561 6 Tb SS S msm 57 NOTES 58 NOTES 59 NOTES Copyright 2008 Patton Electronics Company All Rights Reserved 60
23. Full RX FIFO Empty RXFIFO Slip Console Help Commands The following commands are provided to help the user find the correct command help Lists all the commands that the console recognizes system help Lists all the commands that start with system that the console recognizes system set help Lists all the commands that start with system set that the console recognizes system show help Lists all the commands that start with system show that the console recognizes 21 dsl help Lists all the commands that start with dsl that the console recognizes dsl set help Lists all the commands that start with dsl set that the console recognizes dsl show help Lists all the commands that start with dsl show that the console recognizes dsl show errcntr help Lists all the commands that start with dsl show errcntr that the console recognizes System Configuration Commands The following commands allow the user to configure the system System set password password Sets the system password System set circuitid lt circuitid gt Sets the circuit ID System set clockmode internallexternallreceiverecover Sets the clock mode Internal clock mode means the 3088RC provides the clock to both the DSL and the serial interface External clock mode means the 3088RC uses the serial transmit clock as its DSL transmit clock Receive recover clock mode means that the 3088RC uses the DSL receive clock
24. L Configuration Commands The following commands are used to configure the DSL dsi set timeslots 1 72 Sets the number of timeslots The data rate is calculated by the equation data rate Ztimeslots x 64k dsl set annex alb Set the annex dsl set lineprobe lt enabledidisabled gt Enable or disable line probe dsl set loopback offilallrdl Start or stop loopbacks dsl set pattern lt offl5111511e gt Start or stop PRBS generator and BER meter e DSL Error Monitor Interval Startup Delay Interval 1 Interval 2 LE flstartdelay 2 lt flinttime lt flinttime lt flinttime lt flinttime The DSL error monitor inspects intervals to see if they have met the error threshold maxint If the error monitor finds a certain number intcni of intervals that meet or exceed the error threshold it will restart the DSL link The error monitor will wait startdelay seconds after the DSL link comes up before it begins monitoring errors After the startup delay it will check the number of errors that have occurred during each inttime sec onds to see if they meet the error threshold The error monitor inspects totint intervals before it stops Note Setting maxint to 0 disables the error monitor and setting totint to 0 causes the error monitor to run continuously 23 The following commands configure the error monitor dsl set errmon maxint maxint Sets the number of errors allowed in an interval causes i
25. Model 3088RC Follow the instructions below to connect the interface driver board to the front function card 1 With the function card such as 3088RC shown above pulled out of the NetLink rack or clusterbox chassis locate the driver board to be replaced on the top of the base unit front card 2 Lift the old interface board gently off of the printed circuit board 3 Position the 3088RC C AI driver board on top of the function card s pc board with the sockets oriented toward the male pins Please be sure the label marked FRONT is pointed toward the front of the function card toward the LEDs 4 Push the Interface Driver Board gently onto the socket and re install the function card into the rack or cluster system 32 Connecting to the 10Base T Ethernet Port The Model 3088RC C AI provides line side connections through a termi nal block or through a RJ 45 connector Figure 8 below shows the rear panel options and the locations of the connectors HJ 45 Line Side 10 BaseT Connector Figure 8 3088RC C AI Ethernet Port The RJ 45 Ethernet port on Model 3088RC C AI is designed to connect directly to a 10BaseT network Figure 9 shows the 10BaseT RJ 45 port pin description You may make connections up to 330 feet using Type 4 or 5 cable TD 2 TD p RD 4 no connection N no connection 7 s 7 no connection 8 no connection Figure 9 Model 3088RC Ethernet Connector Pinout 33 Connecting the 10
26. OST the LED blinks once every second DSL Green The DSL LED glows solid when a DSL link is estab lished While the DSL link is training it blinks once every second Term Yellow The Term LED glows solid when a serial port is active TM ER Green The Test Mode Error TM ER LED is used to indicate that a test mode is in progress or an error has been detected It blinks once every second while a test mode is starting It glows solid while a 53 test mode is in progress It blinks once if an error is detected either during a test mode or in normal DSL operation A 7 CONFIGURATION Configuration is done with either externally accessible DIP switches CLI or through the EOC Embedded Operations Channel from a Model 3096RC G SHDSL concentration card A 8 TRANSMISSION LINE Single Twisted Pair A 9 LINE CODING TC PAM Trellis Coded Pulse Amplitude Modulation A 10 LINE RATES DSL LINE All nx64 rates from 64 kbps up to 4 6 Mbps A 11 LINE INTERFACE Transformer coupled 2500 VRMS isolation A 12 G SHDSL PHYSICAL CONNECTION RJ 45 2 wire polarity insensitive pins 4 and 5 A 13 ENVIRONMENT Operating temp 32 122 F 0 50 C Humidity 5 95 non condensing Altitude 0 15 000 feet 0 4 600 meters 54 APPENDIX B MODEL 3088RC INTERFACE PIN ASSIGNMENTS B 1 RJ 11 NON SHIELDED DSL PORT Single twisted pair TP for full duplex transmission The signals are polarity insensitive B 2 V 35 INTERFACE M 34F
27. USER MANUAL MODEL 3088RC RocketLink G NTU Rack Mount G SHDSL Modem Card 3088RC RocketLink G NTU Power e O5 TERM TWER Remote Local 511 sue PI PATTON Ti Tlectronics To Part O7M3088RC UM SALES OFFICE Doc 03325U2 002 Rev A 301 975 1000 Revised 5 20 08 TECHNICAL SUPPORT 301 975 1007 1 2 1 4 1 5 1 6 1 7 1 8 2 0 2 1 2 2 2 3 3 0 3 1 3 2 3 3 3 4 3 9 3 6 osse ETE 5 GOMPIANCE EUR MM MI p aoe 5 Safety Compliance eese nnne 5 PSTN eio MES 5 FCC Part 68 ACTA Statement 6 Radio and TV Interference FCC Part 15 6 Industry Canada Notice 7 CE Declaration of Conformity 7 Authorized European 8 5 61d CE 8 Safety When Working With Electricity 9 General e eeeeee eene 10 gb 10 Y S N P NON e na 10 Serial Interface Types 11 CONFIQUEATION Mec 12 About Software CLI Configuration 12 About Harware DIP Switch Configuration 12 Configuring the DIP Switches V 35 X 21 and Ethernet Models 13 S1
28. ailable Internal The internal oscillator in the 3088RC provides the clock to both the serial T1 E1 and DSL interfaces External The serial interface provides the clock for the DSL interface V 35 X 21 It must be set to DTE for the X 21 inter face This mode is invalid for the Ethernet model Receive Recover The 3088RC recovers the clock from the DSL interface and provides it to the serial E1 interface 19 Data Rate Both the serial E1 and DSL data rates are set by specifying the number of 64k timeslots Annex Either G 991 2 Annex A or Annex B DTE Interface Type Either E1 or a normal serial interface DSL Error Monitor Max Interval Errors The number of errors allowed in an interval before considering the interval errored A value of 0 disables the DSL error monitor DSL Error Monitor Interval Time The length in seconds of an interval DSL Error Monitor Interval Count The number of errored intervals allowed before restarting the DSL link DSL Error Monitor Total Intervals The number of intervals to inspect before disabling the error monitor DSL Error Monitor Startup Delay The length in seconds to wait after the DSL link is established before starting the error monitor Test Modes Loopbacks LAL or RDL and PRBS pseudo random binary sequence BER tests 511 or 511 with errors Line Probe Enable or disable Line Probe for rate adaptive applications The following sta
29. ata received from the DSL line back to the DSL line 46 Patterns The 3088RC can generate and detect 511 and 511 with Error patterns These can be initiated either by the optional front panel switches or by the console command dsl set pattern lt offl5111511e gt When the pattern is started the DSL framer uses its internal 511 pattern generator for its DSL TX data instead of the data received from the serial interface Also the framer s internal BER Meter tries to detect a 511 pattern in the DSL RX Data Because the BER Meter always runs when the pattern generator runs the meter will detect errors if either the pattern is not either looped back or the remote unit is not transmitting a 511 pattern One point to note is that the way errors are generated in the 511E pat tern generates CRC errors This can cause the DSL error monitor to restart the link if the thresholds are set low enough 5 3 REMOTE CONSOLE OPERATION The PC user near end may configure and verify status of the remote 3088RC far end via a Remote Console session The PC user must log onto the 3088RC near end unit to establish a remote console session Once done the remote 3088RC far end appears as a unit which is locally connected through the RS 232 console port All commands are transmitted over the G SHDSL link in the EOC channel Remote Console Session RCS N N RS 232 JN CHEER 3088 3088 Far End Near End Figure 21 Remote co
30. c Equipment WEEE ensure that at end of life you sepa rate this product from other waste and scrap and deliver to the WEEE collection system in your country for recy cling 2 0 GENERAL INFORMATION Thank you for your purchase of this Patton Electronics product This product has been thoroughly inspected and tested and is warranted for One Year parts and labor If any questions arise during installation or use of this product please contact Patton Electronics Technical Support at 301 975 1007 2 1 FEATURES Symmetrical high data rate DSL G SHDSL Data rates up to 4 6Mbps in 64 kbps intervals Serial V 35 DCE only X 21 selectable DCE or DTE Ethernet RJ 45 or T1 E1 interface RS 232 console port for management and configuration Built in testing and diagnostics RocketLink Plug n Play for easy installations Interoperable with other Patton G SHDSL modems e CE marked 2 2 DESCRIPTION The Patton Electronics Model 3088RC G SHDSL RocketLink provides high speed 2 wire connectivity to ISPs PTTs and enterprise environ ments using Symmetrical High data rate Digital Subscriber Line G SHDSL technology As a symmetric DSL NTU RocketLink DSL offers the same data rates in both directions over a single pair of regular twisted pair lines using TC PAM modulation Line connection is made with an RJ 45 jack The Model 3088RC is designed to fit into Patton s 2U 3 5 high rack chassis This chassis uses a mid
31. clocking mode must be determined by the settings of the baseband modems Please refer to your baseband modem i e 1092 and 1095 to make the following settings 1 Bit Rate The DTE rate setting of your base unit corresponds to the throughput of your 3088RC C AI bridge module Use higher speeds to allow maximum throughput to your extended LAN Use lower speeds to limit the access of your extended LAN Note The 3088RC C AI only supports synchronous speeds 2 Clocking Mode Set the clocking modes on the base units so that one unit is configured for Internal clocking mode and the other unit is set for Receive Recover clocking mode BASE UNIT CLOCK MODES Unit SAT Internal Clock Setting Receive Recover Clock Setting NOTE Unit A and Unit E are arbitrarily chosen It does not matter which unit is A and which is B When using the 3088RC C AI DISABLE the Enable Loop from DTE Switch on the front function card 1092ARC or 3088RC 4 All other base unit settings depend upon your application and on the application medium twisted pair or coaxial cable 31 Connecting the Interface Driver Board This package contains an interface driver board that allows you to config ure your front function card for ethernet operation Figure 7 shows the Interface Driver Board connected to a Model 3088RC front function card a Interface Driver Board Lu H Rear Figure 7 Driver Board mounted on
32. cute your commands Instead the Rock etLink G will respond with a message indicating the device is operating in DIP switch configuration mode f you attempt to modify any configuration parameters via the EOC by changing EOC variables the RocketLink G will not execute your changes 3 3 CONFIGURING THE DIP SWITCHES V 35 X 21 and Ethernet Models The Model 3088RC is equipped with three sets of DIP switches which you can use to configure the RocketLink G for a broad range of applica tions This section describes switch locations and discusses the configu ration options available Note By default the RocketLink G s DIP switches are all set to ON so the NTU can be configured via the console If that is how you will be configuring the NTU skip ahead to the section on config uring the console Otherwise read the following sections to manually configure the DIP switch settings Figure 1 Location of DIP switches on Model 3088RC The three sets of DIP switches on the Model 3088RC are referred to as 51 S2 and 53 DIP switch orientation with respect to ON and OFF posi tions is consistent for all switches The DIP switches S1 and S2 can be configured as either ON or OFF Front Panel Switches S2 3 Annex S2 4 Clock Mode S2 5 S1 1 through S1 7 Data Rate Switches S1 1 through S1 7 define both the DSL data rate and the serial data rate Data Rate
33. eds one twisted pair of metallic wire This twisted pair must be unconditioned dry metallic wire between 19 0 9mm and 26 AWG 0 4mm the higher number gauges will limit distance Standard dial up telephone circuits or leased circuits that run through signal equalization equipment or standard flat modular telephone type cable are not acceptable 39 The RJ 45 connector on the Model 3088RC s twisted pair interface is polarity insensitive and is wired for a two wire interface The signal pin relationships are shown in Figure 13 3088RC D V 3088RC A I X 21 female DB 15 V 35 female DB 25 Figure 13 Model 3088RC V 35 X 21 interfaces 40 4 4 CONNECTING THE MODEL 3088RC A I V 35 SERIAL INTER FACE Model 3088 RC A I supports V 35 serial port connections This section describes how to connect the serial ports to your V 35 equipment The interconnecting cables shall be acceptable for external use and shall be rated for the proper applica tion with respect to voltage current anticipated tem CAUTION perature flammability and mechanical serviceability Connecting the Model 3088RC A I V 35 to a DTE device The Model 3088RC A I provides a V 35 DCE data circuit terminating equipment interface on a M 34 connector As a DCE this interface is designed to connect to DTE equipment such as a router When connect ing the V 35 interface of the Model 3088RC A I to your DTE device use a V 35 straight t
34. een Flashing Training Solid DSL Link TERM Solid Serial port is active TM ER Green Solid Test mode is active Blinking Test mode error 45 5 2 TEST MODES The 3088RC offers test modes in the form of loopbacks PRBS pattern generators and combinations of both see Figure 17 on page 45 Figure 18 is a block diagram of the Model 3088RC with respect to test modes DSL DSL 511 Pattern Framer Framer 511 Pattern Generator Generator 511 BER 511 BER Meter Meter Figure 18 3088RC Block Diagram Loopbacks The 3088RC supports both Local Analog Loopbacks LAL and Remote Digital Loopbacks RDL These can be initiated either from the optional front panel switches or by the console command dsl set loopback lt offllallrdl gt The data path for the LAL is shown in Figure 19 DSL 511 Pattern Framer 511 Pattern Generator Generator 511 BER hs Meter Figure 19 Local Analog Loopback Diagram The data received from the serial interface is looped back before going out on the DSL line Note that this loopback occurs after the pattern gen erator BER meter This means that running a 511 pattern in conjunction with an LAL should result in no error detected by the meter The data path for the RDL is shown in Figure 20 M 511 Pattern 511 Pattern Generator Line Generator nn T el 511 BER 511 BER Framer Figure 20 Remote Digital Loopback Diagram The RDL causes the remote unit to loop the d
35. ents The Department does not guarantee the equipment will operate to the user s satisfaction Before installing this equipment users should ensure that it is permissible to be connected to the facilities of the local telecommunications company The equipment must also be installed using an acceptable method of connection In some cases the com pany s inside wiring associated with a single line individual service may be extended by means of a certified connector assembly telephone extension cord The customer should be aware that compliance with the above condition may not prevent degradation of service in some situa tions Repairs to some certified equipment should be made by an autho rized maintenance facility designated by the supplier Any repairs or alterations made by the user to this equipment or equipment malfunc tions may give the telecommunications company cause to request the user to disconnect the equipment Users should ensure for their own pro tection that the ground connections of the power utility telephone lines and internal metallic water pipe system are connected together This protection may be particularly important in rural areas 1 5 CE DECLARATION OF CONFORMITY We certify that the apparatus identified in this document conforms to the requirements of Council Directive 1999 5 EC on the approximation of the laws of the member states relating to Radio and Telecommunication Ter minal Equipment and the mutual recognitio
36. framing information which results in a maximum bandwidth of 1984kbps for user data Clear Channel Mode G 703 Framed Mode G 704 Switch S1 4 Through S1 8 Reserved Reserved for future use and should be set to OFF Jumper Configuration The 3088RC K model has four jumpers two position headers JP4 JP5 JP6 and JP7 These jumpers are used to select input and output imped ance matching between the module and external line See Appendix E for jumper locations The following is a description of the jumper settings with respect to the front panel connectors 1 For a 75 ohm connection coax install JP4 JP7 default 2 For a 120 ohm connection RJ 48C remove JP4 JP7 28 Making Interface Connections The 3088RC K model may be connected to G 703 G 704 ports using a single 120 ohm RJ 48C or a dual 75 ohm coax BNC The 3088RC K model rear panels and the location of these connectors are show below Network RX Figure 4 K Module Rear Panels Showing Location of Connectors Connect Twisted Pair 120 ohm to G 703 G 704 Network The 3088RC K model is equipped with a single RJ 48C jack for connections to a 120 ohm twisted pair G 703 G 704 network interface If your G 703 G 704 network terminates via RJ 48C use the diagram below and the table on the following page to make the proper connections The con nector pinout and signals are shown in Figure 5 Use the following connection diagram to connect the 12
37. hrough cable Appendix B 2 on page 55 describes pin assignments and signal sources for the Model 3088RC A I V 35 inter face D fred 3088RC RocketLink G NTU Q Power DSL TERM _ Remote G SHDSL NTU Remote Local 511 511 4 NI gm i A W Za 3088RC RocketLink G NTU Q Power Q DSL Q TERM TM ER V35 Router DTE Remote Local 511 511 2 3088RC DCE Figure 14 Connecting the Model 3088RC A I to V 35 Serial DTE 41 Connecting the Model 3088RC A I V 35 to a DCE device The Model 3088RC A I provides a V 35 DCE data circuit terminating equipment interface on a M 34 connector As a DCE this interface is designed to connect to DTE equipment such as a router However con necting the 3088RC A I to another DCE device such as a multiplexer or G 703 E1 NTU requires a tailcircuit cable When connecting the V 35 interface of the Model 3088RC A I to your DCE device use a V 35 tail cir cuit cable Some applications may also require the installation of a tail Circuit buffer to account for small differences in clock frequency between the 3088RC A I and the V 35 DCE multiplexer e BE Remote Model 3088RC 3088RC RocketLink G NTU Power DSL TERM TM ER Remote Local DSL Span 511 511 3088RC RocketLink G NTU Power DSL Q TERM Tail circ
38. instructions may cause interference to radio and television reception This equipment has been tested and found to comply with the limits for a Class A computing device in accordance with the specifica tions in Subpart B of Part 15 of FCC rules which are designed to provide reasonable protection from such interference in a commercial installa tion However there is no guarantee that interference will not occur in a particular installation If the equipment causes interference to radio or television reception which can be determined by disconnecting the cables try to correct the interference by one or more of the following measures moving the computing equipment away from the receiver re orienting the receiving antenna and or plugging the receiving equipment 6 into a different AC outlet such that the computing equipment and receiver are on different branches 1 4 INDUSTRY CANADA NOTICE This equipment meets the applicable Industry Canada Terminal Equip ment Technical Specifications This is confirmed by the registration num ber The abbreviation IC before the registration number signifies that registration was performed based on a Declaration of Conformity indicat ing that Industry Canada technical specifications were met It does not imply that Industry Canada approved the equipment This Declaration of Conformity means that the equipment meets certain telecommunications network protective operational and safety require m
39. ion for the Model 1001RCM134XX M 34 rear card This strap determines whether Signal Ground and Frame Ground will be connected Figure 2 1001RCM134XX strap locations The table below provides an overview of interface strap functions for the rear interface cards Following the table overview are detailed descrip tions of each strap s function DTE Shield Pin A amp FRGND FRGND amp SGND Pin B Indicates default setting DTE Shield M 34 Pin A amp FRGND JB3 In the connected position this strap links M 34 pin A amp frame ground In the open position pin A is disconnected from frame ground Position 1 amp 2 DTE Shield Pin A and FRGND Connected Position 2 amp 3 DTE Shield Pin A and FRGND Not Connected 25 SGND 8 FRGND JB4 In the connected position this strap links Signal Ground and frame ground through a 100 ohm resistor In the open posi tion signal ground is disconnected from frame ground Position 182 SGND and FRGND Connected Position 283 SGND and FRGND Not Connected 3 7 CONFIGURING THE X 21 REAR CARD The X 21 interface card is configured by setting the configuration straps located on the PC board Model 1001RCM1 15458 1001RCM115TB Strap Settings Figure 3 shows strap locations for the Model 1001RCM115XX DB 15 rear cards These straps determine various grounding characteristics for the terminal interface and twisted pair lines JB3 and JB4 are user con figurable
40. ipment to the premises wiring and telephone network must comply with the applicable FCC Part 68 rules and requirements adopted by the ACTA If this equipment causes harm to the telephone network the telephone company will notify you in advance that temporary discontinuance of ser vice may be required But if advance notice isn t practical the telephone company will notify the customer as soon as possible Also you will be advised of your right to file a complaint with the FCC if you believe it is necessary The telephone company may make changes in its facilities equipment operations or procedures that could affect the operation of the equip ment If this happens the telephone company will provide advance notice in order for you to make necessary modifications to maintain uninter rupted service If trouble is experienced with this equipment for repair or warranty infor mation please contact our company If the equipment is causing harm to the telephone network the telephone company may request that you dis connect the equipment until the problem is resolved Connection to party line service is subject to state tariffs Contact the state public utility commission public service commission or corporation commission for information 1 3 RADIO AND TV INTERFERENCE FCC PART 15 This equipment generates and uses radio frequency energy and if not installed and used properly that is in strict accordance with the manu facturer s
41. modes internal external or receive recover Internal The on board oscillator in the 3088RC provides clock for both serial and DSL lines External 3088RC uses the RX clock from the serial interface as the clock for the DSL link Receive 3088RC uses the RX clock Recover from the DSL line as the clock for the serial interface OF OFF Reeva X 21 operation There are a few things to note about clock modes and X 21 operation X 21 modem must be set to Receive Recover The other X 21 modem must be set to either nternal or External Network clock mode The X 21 modem that is configured as Receive Recover must be DCE The X 21 modem that is configured as nternal must also be DCE but if itis an External Network clock then the modem must be configured as DTE ERE CPE Side Modem CO Side Modem Modems X21 Recelve Recover Internal External Network Orientation DCE DCE x _ ogg x jo Ethernet operation The 3088RC C AI model does not recover clock from the Ethernet network because it is packet based rather than TDM Therefore the external clock mode is not valid S2 6 DTE Loops The V 35 interface provides two pins one to request an LAL and the other to request an RDL If DTE loops are enabled the 3088 RC A I will Start a local loopback or a remote loopback when these pins are asserted If DTE loops are disabled these requests will be ignored Enabled Disabled S2 7
42. n of their conformity The safety advice in the documentation accompanying this product shall be obeyed The conformity to the above directive is indicated by the CE sign on the device 1 6 AUTHORIZED EUROPEAN REPRESENTATIVE D RM Green European Compliance Services Limited Oakdene House Oak Road Watchiield Swindon Wilts SN6 8TD UK 1 7 SERVICE All warranty and non warranty repairs must be returned freight prepaid and insured to Patton Electronics All returns must have a Return Materi als Authorization number on the outside of the shipping container This number may be obtained from Patton Electronics Technical Services at Tel 1 301 975 1007 Email support patton com URL http www patton com Note Packages received without an RMA number will not be accepted 1 8 SAFETY WHEN WORKING WITH ELECTRICITY A WARNING e This device contains no user serviceable parts The equipment shall be returned to Patton Electronics for repairs or repaired by qualified service personnel e Hazardous network voltages are present in WAN ports regardless of whether power to the unit is ON or OFF To avoid electric shock use caution when near WAN ports When detaching the cables detach the end away from the device first e Do not work on the system or connect or disconnect cables during periods of lightning activity In accordance with the requirements of council direc tive 2002 96 EC on Waste of Electrical and Electroni
43. nterface card The two cards meet inside the rack chassis and plug into each other by way of mating 50 pin card edge connectors Use the following steps as a guideline for installing each Model 3088RC C AI and its function card mate into the rack chassis 1 Slide the 3088RC C AI rear card into the back of the chassis along the metal rails provided 2 Secure the 3088RC C AI rear card using the metal screws provided 3 Slide the front function card into the front of the chassis It should meet the 3088RC C AI rear card when it is almost all the way into the chassis 4 Push the front card gently into the card edge receptacle of the rear card It should click into place 5 Secure the front card using the thumb screws 44 5 0 OPERATION Once the Model 3088RC is properly configured and installed it should operate transparently These sections describes functions of the LED status indicators and the use of the built in loopback test modes 5 1 LED STATUS INDICATORS The Model 3088RC features four front panel LEDs that monitor the opera tion of the rack card Figure 17 shows the front panel location of each LED Table 1 describes each LED s function 3088RC RocketLink G NTU Power Q DSL Q TERM Q TM ER Remote Local 511 511 Figure 17 The Model 3088RC Series front panel LEDs Table 1 Model 3088RC front panel LED descriptiont Power Green Flashing POST Solid Power is on DSL Gr
44. ntrol session Diagram Establishing a Remote Console Session How to Connect The following steps are to establish a connection to the remote 3088RC far end via Remote Console Session RCS 1 Configure a terminal emulation program e g Hyperterminal on PC near end for 19200 bps 8 data bits no parity 1 stop bit no flow control Connect it to the 1001CC in the same chassis as the 3088RC near end 2 At the password prompt log in to the near end Model 3088 RC 47 3 Ensure that a DSL link is established You can verify an established DSL link by using the system show status command or by checking that the DSL LED is solid green Upon executing the show status command the dsl link state is shown as success if the DSL link is established 4 At the command prompt enter the command remote console 5 Wait for the message Console Hemote console connection estab lished DSL link is not established or for some other reason the 3088RC far end does not respond in a reasonable amount of time the following message appears Console Remote console timed out trying to con nect Enter the command remote con sole again f 3088RC Far End already has an active remote console ses sion open you will see the message Console Hemote console connection request rejected This can also happen if the remote 3088RC far end has an established remote console session with the local 3088RC near end which has
45. rrors were detected The user may then set the DIP switches to the desired configuration and power cycle the unit to run the upgraded software Configuration Reset to Factory Defaults To recover from a forgotten password the user may reset the unit to its factory configuration After seeing the Reset Mode message the user should type the key This will result in a prompt At the prompt the user should enter the command reset This will restore the unit to the fac tory configuration The unit can then be restarted with the settings in place 3 5 CONFIGURING THROUGH THE CONSOLE The 3088RC offers a console command line interface To access the console use a VT100 emulator configured to 9600 bps 1 stop bit no parity and XON XOFF flow control Use the 1001CC to access the con sole Type CTRL B address lt enter gt to activate the console Log into the unit using the default password No username will be needed Note Login with the default password superuser You can configure the following variables through the console Password The password used to login to the console Circuit ID The circuit ID communicated to other units via EOC EOC Embedded Operations Channel is an out of band channel specified in the G 991 2 standard for SHDSL We use standard EOC messages for our remote loopback The 3088RC also supports proprietary EOC messages that allow a 3096RC to configure it Clock Mode The following options are av
46. sted pairs must be unconditioned dry metallic wire between 19 9mm and 26 AWG 4mm Appendix B describes cable requirements Standard dial up telephone circuits or leased circuits that run through signal equalization equipment or standard flat modular telephone type cable are not acceptable 1 no connection 2 no connection 4 Wire ARX A 2 Wire TIP Wire TX 5 2 Wire RING 4 Wire TX 4 Wire ARX en no connection 8 no connection Figure 10 RJ 45 Line Interface Note Two Wire Modems use RJ 45 pins 4 and 5 and 4 Wire Modems use RJ 45 pins 3 4 5 and 6 as shown above Please see the Function Card User Manual for more details LED Status Monitors The Model 3088RC C AI features two LEDs that monitor general operat ing status and the 10Base T twisted pair link integrity Figure 11 shows the LEDs located directly beneath the RJ 45 jack Status LED fellow m Link Integrity LED Status LED Green Yellow Link Integrity LED Green Figure 11 3088RC Rear Panel LED Locations 35 Status Blinks yellow from one to eleven times to indicate system status Each pulse pattern is separated by a 2 second off period Greater pulse patterns have higher priority buffer saturation has greater priority than an empty MAC table Valid system statuses are 1 pulse system status ok 2 pulses No MAC entries in the MAC address table pulses Clear to send CTS
47. t to be considered an errored interval If this is set to 0 then the error monitor is disabled dsl set errmon inttime lt inttime gt Sets the length of each interval dsl set errmon intcnt intent Sets the number of errored intervals that causes the DSL link to restart dsl set errmon totint lt totint gt Sets the number of intervals to inspect for errors before disabling the error monitor If this is set to 0 then the error monitor will run continuously dsl set errmon startdelay startdelay Sets the number of seconds to wait after the DSL link comes up before the error monitor starts inspecting intervals Changing the data rate dsl set timeslots the clock mode system set clockmode the Annex dsl set annex or Line Probe dsl set lineprobe or the DSL error monitor settings will not take effect on the DSL link until the link restarts The dsl start command restarts the DSL link DSL Status Command The dsl show status command shows the following DSL status informa tion link state sync state link speed error counters line condition noise margin and test mode status DSL Clear Errcntrs Command The dsl clear errcntrs command clears the error counters 24 3 6 CONFIGURING THE V 35 REAR CARD The V 35 interface card is configured by setting the configuration straps and dip switches located on the PC board Model 1001RCM13445 8 1001RCM134TB Strap Settings Figure 2 shows the strap locat
48. te of the shipment This warranty is limited to defects in workmanship or materials and does not cover customer damage abuse or unauthorized modification lf this product fails or does not performs as warranted your sole recourse shall be repair or replacement as described above Under no condition shall Patton Electronics be liable for any damages incurred by the use of this product These damages include but are not limited to the following lost profits lost savings and incidental or consequential damages arising from the use of or inability to use this product Patton Electronics spe cifically disclaims all other warranties expressed or implied and the installation or use of this product shall be deemed an acceptance of these terms by the user 1 1 COMPLIANCE EMC Compliance FCC Part 15 Class A EN55022 Class A EN55024 Safety Compliance UL 60950 1 CSA C22 2 NO 60950 1 EC EN60950 1 AS NZS 60950 1 PSTN Regulatory FCC Part 68 CS03 TBR12 amp 13 K and T models AS ACIF S016 2001 K and T models AS ACIF S043 2003 1 2 FCC PART 68 ACTA STATEMENT This equipment complies with Part 68 of FCC rules and the requirements adopted by ACTA On the bottom side of this equipment is a label that contains among other information a product identifier in the format US AAAEQ TXXXX If requested this number must be provided to the telephone company The method used to connect this equ
49. to be selected when in software reset mode It will automatically accept data from the 1001CC Power up the unit The terminal should display the following mes sage Reset Mode Type the key You will see prompt Type the command reset When the command completes the unit has been reset to factory configuration Set the DIP switches to the desired configuration Power cycle the unit to begin using the new configuration 52 APPENDIX A SPECIFICATIONS A 1 CLOCKING MODES Internal external V 35 only or receive recovered A 2 DTE RATE All 64k steps from 64 to 4608 kbps A 3 SERIAL INTERFACE V 35 Model 3088RC A 1 DCE orientation X 21 Model 3088RC D V DCE or DTE orientation depending on orien tation of daughter board mounted on the mother board E1 Model 3088RC K K presents G 703 G 704 interface Either 75 Ohms unbalanced or 120 Ohms balanced Pins 1 amp 2 are Receive Pins 4 amp 5 are Transmit A 4 SERIAL CONNECTOR D Sub 25 Female Model 3088RC A 1 D Sub 15 Female Model 3088RC D V Dual BNC and RJ48C Model 3088RC K K strap selectable A 5 DIAGNOSTICS V 52 compliant 511 511E pattern generator and detector with error injection mode controlled by front panel switch Local and Remote Loop back control either by a front panel switch or from the DTE interface A 6 STATUS LEDS Power Green The Power LED glows solid during normal operation At startup during the P
50. tus information is available through the command line interface LEDs Which software controlled LEDs are currently on FPSW Settings What the front panel switches are set to if the unit is populated with them Configuration Mode Whether the 3088RC is configured by DIP switches or software DSL Link State n Progress Success Deactivated or ldle DSL Sync State Out of Sync Acquiring Sync In Sync or Losing Sync Note DSL Link State vs DSL Sync State The DSL link state describes whether the DSL is training in progress linked suc cess deactivated we don t have an option to deactivate the modem so the user should not see this or idle The DSL sync state describes whether no sync words have 20 been found out of sync there are no sync word errors in sync or whether we are transitioning from out of sync to in sync acquiring sync or vice versa losing sync Typically when the link is training the sync state goes from out of sync to acquiring sync to in sync DSL Actual Rate The actual rate at which the DSL link is running minus DSL overhead e DSL Line Condition Good or Poor Noise Margin Ratio the maximum tolerable increase in external noise power that still allows for BER of less than 1x 10 7 DSL Error Counters The following error counters are available CRC LOSW Loss of Sync Word TX FIFO Full TX FIFO Empty TX FIFO Slip TX Stuff RX FIFO
51. uit cable TM ER Remote Local 511 511 Model 3089RC A DCE G 703 ET NTU Figure 15 Connecting the Model 3088RC A I to V 35 Serial DCE 42 4 5 CONNECTING THE MODEL 3088RC D V X 21 SERIAL INTER FACE Model 3088RC D V supports X 21 serial port connections This section describes how to connect the serial ports to your X 21 equipment The interconnecting cables shall be acceptable for external use and shall be rated for the proper applica tion with respect to voltage current anticipated tem CAUTION perature flammability and mechanical serviceability Connecting the Model 3088RC D V X 21 to a DCE or DTE device The Model 3088RC D V provides an X 21 interface on a DB 15 female connector The X 21 interface default configuration is DCE for connection to DTE data terminal equipment such as a router However the X 21 interface on the Model 3088RC D V may be configured as DTE data ter minal equipment for connection to DCE such as a modem or multiplexer When connecting the X 21 interface of the Model 3088RC D V to your DTE or DCE device use an X 21 straight through cable A qam Remote Model 3088RC 3088RC RocketLink G NTU Power Q DSL TERM TM ER Remote Local 511 511 DSL Span K RocketLink G NTU Straight Throu h 15 pin aS D Sub Cables du cl pis MEM e Mux Remote Local
52. witch S1 1 Line Coding Use Switch S1 1 to control the Network Line Coding options Set these options to be the same as the Line Cod ing that has been provided by your Service Provider S14 Line Framing amp Coding Line Coding Options High Density Bipolar 3 HDB3 In HDB3 coding the transmitter deliberately inserts a bipolar violation when excessive zeros in the data stream are detected The receiver recognizes these special viola tions and decodes them as zeros This method enables the network to meet minimum pulse density requirements Use HDB3 unless AMI is required in your application 27 Alternate Mark Inversion AMI AMI coding does not inherently account for ones density To meet this requirement you should ensure that the data inherently meets pulse density requirements Switch S1 2 CRC 4 Multiframe CRC 4 Multiframe uses Time Slot zero to carry CRC 4 information When CRC 4 is enabled ON the unit synchronizes to the CRC 4 multi frame protocol Disabled Enabled Note When the data rate is set to 2048 Kbps K Module transmits user data on all 32 timeslots ignoring framing information In this case Switch S1 2 will be ignored Switch S1 3 Clear Channel Mode When 51 3 is at Off position the Module is running in G 703 clear channel mode When 51 3 is at On position the K Module is running in G 704 framed mode When the K Module is set to framed mode channel will be used to pass G 704
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