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USER
MANUAL
MODEL 2715
NetLink-E1:
E1/Fractional E1 NTU
Part# 07M2715-UM SALES OFFICE
Doc# 08605U2-001,
(301) 975-1000
Rev. C
TECHNICAL SUPPORT
Revised 10/26/06
CERTIFIED
(301) 975-1007
An ISO-9001
http://www.patton.com
Certified Company
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PATTON MODEL 2715 1.0 GENERAL INFORMATION TABLE OF CONTENTS Thank you for your purchase of this Patton Electronics product. This product has been thoroughly inspected and tested and is warranted Section Page for One Year parts and labor. If any questions or problems arise during installation or use of this product, please do not hesitate to contact 1.0 General Information...............................................................2 Patton Electronics Technical Services at (301) 975-1007. 1
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1.4 SERVICE INFORMATION 1.2 RADIO AND TV INTERFERENCE All warranty and non-warranty repairs must be returned freight The Model 2715 generates and uses radio frequency energy, prepaid and insured to Patton Electronics. All returns must have a and if not installed and used properly—that is, in strict accordance with the manufacturer's instructions—may cause interference to radio and Return Materials Authorization number on the outside of the shipping television reception. The Model 2715 has
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2.0 GENERAL INFORMATION 2.3 SUPPORTED APPLICATIONS Thank you for your purchase of this Patton Electronics product. The Model 2715 provides an E1 network termination between E1 and Fractional E1 equipment and customer premises equipment (CPE) This product has been thoroughly inspected and tested and is warranted for One Year parts and labor. If any questions arise during installation such as a router. The Model 2715 can also be used as a high-speed or use of the unit, contact Patton Electroni
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3.0 CONFIGURATION SWITCH SET SUMMARY TABLE The Model 2715 features configuration capability via hardware Position Function Factory Default Selected Option switches or a software control port. This section describes all possible hardware and software switch configurations of the Model 2715. SW1 Line Coding Off HDB3 SW2 CAS Multiframe Off Disabled SW3 CRC-4 Multiframe Off Disabled 3.1 DIP SWITCH CONFIGURATION SW4 Clock Mode Off Network The Model 2715 has eight internal DIP switches that allow c
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Switch SW2: CAS Multiframe UNFRAMED (G.703) SW3 SW4 Clock Mode The Channel Associated Signaling (CAS) multiframe uses Timeslot 16 (TS16) to send multiframe (MF) alignment data. In CAS MF, a multi- Off Off Network (Default) frame is defined as 16 frames, where a frame consists of 32 64kb/s Off On Internal timeslots, numbered 0 to 31. TS16 of the first frame in the MF contains On On External the CAS MF alignment word in the upper four bits. The alignment word On Off Network is always 0000 (bin
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NOTE: When the data rate is set to 2.048Mb/s, then the unit is Baud rate: 9600 Parity: None Data Length: 8 Stop Bits: 1 forced into G.703 mode, and it transmits user data on all 32 timeslots. There is no framing information; therefore, the CAS MF Default terminal type: VT100 (SW2)and CRC-4 (SW3) switches are ignored. In all other rate Local Echo: Off settings, the unit employs G.704 framing; TS0 is reserved for Add Line Feeds after CRs: Off signaling. Received Backspace Destructive: On Backspac
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3.2.1 Introduction to Main Menu The Main Menu options are briefly described below. After entering the password, you may access all of the system’s functions and parameters. The Main Menu looks like this: a System Configuration options allow you to change various aspects of the Model 2715’s operation, e.g., framing, line cod- ing, and aggregate bandwidth. System Diagnostics/Statistics options allow you to monitor b the network performance, initiate V.54 loops, local loops, and send test pattern
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3.2.2 System Configuration b Line Coding: HDB3 (default) Options: AMI, HDB3 The System Configuration menu looks like this: HDB3: In this line coding, the transmitter substitutes a deliberate bipolar violation when excessive zeros in the data stream are detected. The receiver recognizes these special violations and decodes them as zeros. This method enables the network to meet minimum pulse density requirements. Unless AMI is required in your application, HDB3 should be used whenever possible
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d g Clocking: Network (default) CAS MF Setting: Disabled (default) Options: Network, Internal, External Options: Enabled, Disabled Network: This is the most commonly used setting when connect- CAS MF: CAS multiframe uses Timeslot 16 (TS16) to send multi- ing to a carrier’s network. In this mode, the unit recovers the frame (MF) alignment data. In CAS MF, a MF is defined as 16 clock from the received signal and uses it to transmit data. In frames, where a frame consists of 32 64kb/s timeslot
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If you do not have a terminal, you may force the unit to use the DIP switches as the default configuration source by turning off the unit, set- 3.2.3 System Diagnostics ting all the DIP switches to the ON position, then powering on the unit. This will cause the unit to enter a special mode. Then turn off the unit The System Diagnostics/Statistics screen looks like this: and change the switch settings to the desired settings. When you turn the unit on again, the unit will be set up with the sele
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b Remote Loop Idle (default) The Model 2715 receiving a RL can be in one of the following states: The Remote Digital Loopback (RDL) test checks the performance RxPr The Model 2715 is receiving a preparatory pattern. of both the local and remote Model 2715s, as well as the communica- tion link between them. Data from the local DTE is sent across the Sack The Model 2715, upon receiving a preparatory pattern, entire communication circuit and looped back to the local DTE. sends an acknowledge
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Use this option to select the test pattern used to test the link. 3.2.4 Unit Options NI STATUS The Unit Options screen looks like this (factory default): The Network interface (NI) status is shown RCL in the middle of the Diagnostics/Statistics screen. The brackets are empty when the link is operating normally. Only one error message is provided Receiver Carrier Loss [RCL] occurs when 255 consecutive zeros have been detected at the network interface. RCL clears when a pulse is detected. Curren
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4.0 INSTALLATION d Loop Timeout The Model 2715 is equipped with DTE, network, and power interfaces. The Loop Timeout setting can be set to one of the following: This section briefly describes connection to each. 00:05 = five minutes 4.1 DTE INTERFACE CONNECTION 00:10 = ten minutes 00:15 = fifteen minutes The DTE interface is a V.35 DCE presented as an M/34 male connec- 00:30 = thirty minutes (default setting) tor. This interface is designed to plug directly into a DTE interface 00:45 = forty
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Model 2715 Model 2702 G.703 Interface Converter SWITCHING POWER SUPPLY MODEL : SYD1106-0505 INPUT : 36-60V 0.2A MAX OUTPUT : +5V 1.0A OUTPUT POWER : 5W MAX S/N: G01234567890 MADE IN CHINA BY SUNNY 5.0 OPERATION 4.3 POWER CONNECTION Once the Model 2715 is installed and configured properly it is ready The Model 2715 offers three ways to supply external power: AC to place into operation. This section describes the function of the LED power, DC power and
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LOS The Loss of Sync LED lights when the unit 5.2 LOOP (V.54 & TELCO) DIAGNOSTICS loses synchronization with the incoming sig- The Model 2715 offers three V.54 loop diagnostics. Use these nal. This may happen when there is a fram- diagnostics to test the NTU and any communication links. These tests ing mismatch or a loss of signal. In can be activated via the software control port (See Section 3.2.3 unframed mode, the LOS LED monitors the System Diagnostics) or via signals on the serial port
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To perform an RDL test, follow these steps: 5.3 BIT ERROR RATE (V.52) DIAGNOSTICS 1. Activate RDL. This may be done in two ways: The Model 2715 offers three V.52 Bit Error Rate (BER) test pat- terns. These test patterns may be invoked along with the LAL and b a. Enter Remote Loop from the System RDL tests to evaluate the unit(s) and the communication links. Diagnostics/Statistics menu and toggle the b until “TM” appears next to the Remote Loop option.; When a 511, 2047
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APPENDIX A APPENDIX B PATTON MODEL 2715 PATTON MODEL 2715 CABLE RECOMMENDATIONS SPECIFICATIONS Network Data Rate: 2.048 Mbps The Patton Model 2715 has been performance tested by Patton Network Connector: RJ-48C technicians using twisted-pair cable with the following characteristics: Nominal Impedance: 120 ohm (75 ohm available when using Patton Model 460 Balun) Wire Gauge Capacitance Resistance DTE Interface: V.35 (DCE Orientation) on Male M/34 19 AWG 83nf/mi or 15.72 pf/ft. .0163 Ohms/ft. Line
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APPENDIX C APPENDIX D PATTON MODEL 2715 PATTON MODEL 2715 FACTORY REPLACEMENT PARTS INTERFACE PIN ASSIGNMENTS AND ACCESSORIES RJ-48C E1 Network Interface Patton Model # Description (RJ-48S Female Modular Jack) 2715/CM/UI .....................V.35 to E1 Converter (V.35 M/34 Male, UI) Pin # Signal 10 - 09F...........................6 Foot Control Port Cable, 25 mm to 1 RX Data (RING) DB9F 2 RX Data (TIP) 4 TX Data (RING) 08055DCUI......................Universal Input Power Supply 5 TX Data (TIP)
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APPENDIX D APPENDIX E PATTON MODEL 2715 (continued) POWER SUPPLY INTERFACE PATTON MODEL 2715 INTERFACE PIN ASSIGNMENTS Via Main 5VDC power jack (J1) M/34 Connector, Terminal Interface Center Pin: +5VDC @ 300 mA Outer Barrel: Ground Pin # Signal A GND (Earth Ground/Shield) Jumper Position for Power via DC Power Jack (default): B SGND (Signal Ground) D CTS (DCE Source) E DSR (DCE Source, Always On) F CD (DCE Source) L LL (Local Loop, DTE Source) M TM (Test Mode Indicator (DCE Source) N RL (Remote