Patton 1186 User Manual

USER
MANUAL

MODEL 1186

Multi-Mode Fiber Modem with
Fixed G.703/G.704 Interface

Part# 07M1186-UM
Doc# 01716U2-001,
Rev. C
Revised 10/25/06

SALES OFFICE
(301)975-1000
TECHNICAL SUPPORT
(301)975-1007
http://www.patton.com

An ISO-9001

Certified

Company

CERTIFIED

TTAABBLLEE OOFF CCOONNTT EE NNTTSS

Section Page

1.0 Warranty Information.............................................................2

1.1 Radio and TV Interference

1.2. CE Notice

1.3 Service............................................................................3

2.0 General Information...............................................................4

2.1 Features

2.2 Description

3.0 Configuration .........................................................................5

3.1 Configure the Hardware DIP Switches

3.1.1 Configuration of the Model 1186

3.1.2 Select RJ-48C or BNC Connector

4.0 Installation .............................................................................9

4.1 Connect the G.703/G.704 Network

4.1.1 Connect Twisted Pair to G.703/G.704 Network

4.1.2

Connect Coax Cable to the G.703/G.704 Network

4.2 Connect the Fiber Interface

4.3 Power Connection

4.3.1 Universal AC Power (100-240VAC)

4.3.2 DC Power

5.0 Operation.............................................................................12

5.1 Power-Up

5.2 LED Status Monitors

5.3 Test Modes

5.3.1 Local Loopback

5.3.2 Remote Digital Loopback

5.3.3 V.52 Test Pattern Generator

Appendix A - Specifications ........................................................17

Appendix B - Factory Replacement Parts and Accessories.......19

1

11..00 WWAARRRR AANNTT YY IINNFFOORR MMAA TT IIOONN

Patton Electronics warrants all Model 1186 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 date of shipment.

This warranty is limited to defects in workmanship or materials,
and does not cover customer damage, abuse or unauthorized modifi­cation. If this product fails or does not perform 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 specifically 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 RADIO AND TV INTERFERENCE

The Model 1186 generates and uses radio frequency energy, and
if not installed and used properly—that is, in strict accordance with the
manufacturer's instructions—may cause interference to radio and tele­vision reception. The Model 1186 has been tested and found to com­ply with the limits for a Class A computing device in accordance with
the specifications in Subpart J of Part 15 of FCC rules, which are
designed to provide reasonable protection from such interference in a
commercial installation. However, there is no guarantee that interfer­ence will not occur in a particular installation. If the Model 1186 does
cause interference to radio or television reception, which can be deter­mined by disconnecting the unit, the user is encouraged to 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 into a dif­ferent AC outlet (such that the computing equipment and receiver are
on different branches).

1.2 CE NOTICE

The CE symbol on your Patton Electronics equipment indicates
that it is in compliance with the Electromagnetic Compatibility (EMC)
directive and the Low Voltage Directive (LVD) of the European Union
(EU). A Certificate of Compliance is available by contacting Technical
Support.

2

1.3 SERVICE

All warranty and non-warranty repairs must be returned freight
prepaid and insured to Patton Electronics. All returns must have a
Return Materials Authorization number on the outside of the shipping
container. This number may be obtained from Patton Electronics
Technical Service at:

tel: (301)975-1007

email: support@patton.com

www: http://www.patton.com

Patton Electronics' technical staff is also available to answer any
questions that might arise concerning the installation or use of your
Model 1186. Technical Service hours: 8AM to 5PM EST, Monday

through Friday.

3

22..00 GGEENNEERRAALL IINNFFOORRMMAATTIIOONN

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 or problems arise during instal­lation or use of this product, please do not hesitate to contact Patton
Electronics Technical Support at (301) 975-1007.

2.1 FEATURES

· ITU G.703/G.704 (E1) transport over Multi-Mode fiber

· Full duplex operation over a single string of fiber

· Multi-Mode fiber with max distance 2.5km (1.5 miles)

· Two fiber connection options available: ST or SMA

· 120 Ohm (RJ-48C) and 75 Ohm (dual coax) G.703/G.704 terminations

· Clocking Options: Internal, Network (G.703/G.704) or Receive
Recover (fiber link)

· Optional AMI or HDB3 G.703/G.704 data coding

· Six Front Panel LED status indicators: Fiber line, E1 line, LOS, TM,
ER, and NS

· Testing/troubleshooting tools: V.54 compliant local/remote loop
backs, V.52 compliant 511/511E test patterns

2.2 DESCRIPTION

The Patton Electronics

Model 1186 offers the ability to extend E1
(G.703/G.704) service over Multi-Mode fiber. A pair of 1186 Multi-Mode
Fiber Modems provides G.703/G.704 Network "extension" between remote
locations (Figure 1).

The Model 1186 is designed to transmit/receive G.703/G.704 data
over one string of fiber. The Model 1186 allows transmission over Multi­Mode fiber with distances up to 2.5 km (1.5 miles). The clocking options for
the Model 1186 include Internal, Network (from G.703/G.704 Network) or
Receive Recovered clock (from fiber line).

The Model 1186 also incorporates V.54 compliant local/remote loop­backs and V.52 compliant 511/511E test patterns. Front panel switches
activate test patterns and loopbacks. LED status indicators monitor the
fiber and G.703/G.704 links. The Model 1186 is available with an AC or DC
power supply and is supported by a wide range of applications and power
supply environments.

4

NOTE: Packages received without an RMA number will not be

accepted.

Figure 1. Network extension between remote locations

G.703/G.704 G.703/G.704

Fiber Optic Line

Modem

Modem

33..00 CCOONNFF IIGGUURR AATTIIOONN

The Model 1186 is equipped with eight DIP switches, which allow
configuration of the unit for a wide variety of applications. This section
describes the switch location and explains all possible configurations.

3.1 CONFIGURE THE HARDWARE DIP SWITCHES

The 8 external dip switches are accessible from the underside of
the Model 1186 (See Figure 2, below).

Figure 3 shows the orientation of the DIP switches in the “ON” and
“OFF” positions.

5

Figure 3. Close-up of configuration switches

Figure 2. Underside of Model 1186, showing location of the DIP Switches

Front

Rear

On

Off

3.1.1 Configuration of Model 1186

Switches S1 through S8 may be used to configure clocking modes
and line coding. Default settings of the switches are shown in the table
below. A description of the switch options follows the table.

Switches S1 and S2: Clock Mode

Use Switches S1 and S2 to determine clock mode of the 1186.

S1 S2 Setting Description

On On Internal Transmit clock generated internally

On Off Receive Recover Transmit clock derived from the line

Off On Network Transmit clock derived from G.703/G.704

equipment interface

Off Off Not Used Internal use only

Switch S3 and S4: Line Coding Options

Use Switches S3 and S4 to determine whether the G.703/G.704 line
coding is HDB3 or AMI (for older telecommunications equipment). The
line coding must be the same line coding prescribed by the NAP (Network
Access Provider). Most applications will use HDB3.

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 vio-

6

OFF

ON

S1

Note: The Model 1186 units are intended to work in pairs. When setting
the clock modes for the Model 1186 units, one end of the link must be set
for Receive Recover and the other end must be set for either Internal or
Network.

}

}

Internal
Clock

HDB3

Position Function Default Setting

S1
S2
S3
S4

Clock Source
Clock Source

Line

Coding

ON
ON
OFF
OFF

S5
S6

Reserved for Future Applications OFF

S7
S8

7

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. Use HDB3
unless AMI is required in your application.

Alternate Mark Inversion (AMI): AMI defines a pulse as a
“mark,” a binary one, as opposed to a zero. In an E1 Network con­nection, signals are transmitted as a sequence of ones and zeros.
Ones are sent as pulses, and zeros are sent as spaces, i.e., no
pulse. Every other pulse is inverted from the previous pulse in
polarity, so that the signal can be effectively transmitted. This
means, however, that a long sequence of zeros in the data stream
will cause problems, since the modem receiving the signal relies
on the signal to recover the 2.048 Mbps clock.

If you must use AMI, ensure that the data terminal equipment con­nected to the unit provides a minimally acceptable pulse density.
For this reason, there are advantages to using HDB3 instead. AMI
coding does not inherently account for ones density. To meet this
requirement, ensure that the data inherently meets pulse density
requirements.

S3 S4 DTE Line Coding
Off Off HDB3
Off On Internal use only
On Off Internal use only
On On AMI

Switches S5 through S8: Reserved

Switches S5 through S8 are reserved for future applications and

should be set to OFF.

3.1.2 Select RJ-48C or BNC Connectors

The Model 1193 is shipped configured for use with a BNC connec­tion to the G.703/G.704 Network. If your Network connection is using
BNC, skip this section.

Jumper Configuration

The Model 1186 has four internal jumpers: JP2, JP3, JP4 and
JP5. These jumpers are used to match input/output impedance
between the module and external line on the G.703/G.704 Interface.
The jumper settings select either a BNC (75-ohm) or an RJ-48C (120­ohm) interface. Figure 4 below shows the top view of the printed circuit
board (PCB) and the location of the jumpers.

Open the Case

To open the case, insert a screwdriver into the slots and twist the
screwdriver head slightly. The top half of the case will separate from
the lower half of the case. Take caution not to damage any of the PC
board mounted components.

The following is a description of the jumper settings and the interface
selection:

1. For a 75-ohm connection (BNC/coax), insert jumpers JP2, JP3, JP4,

and JP5 (default).

2. For a 120-ohm connection (RJ-48C/twisted pair), remove jumpers

JP2, JP3, JP4, and JP5.

8

Figure 4: Top view of 1186 circuit board and location of jumpers

Note: Electronic equipment is sensitive to ESD (electrostatic dis­charge). When you change the internal jumpers on the 1186, use a
grounding strap to avoid damages. For more information call Patton
Technical Support (301) 975-1007.

9

44..00 IINNSS TT AALLLLAATTIIOONN

Once the Model 1186 is properly configured, it is ready to connect
to the fiber interface, to the G.703/G.704 equipment, and to the power
source. This section describes how to make these connections.

The power, G.703/G.704 and Fiber Line connections are located
on the rear panel of the Model 1186. Figure 5, below, shows the loca­tion of each of these ports.

4.1 CONNECT THE G.703/G.704 NETWORK

There are two ways to connect to the G.703/G.704 Network. This
section describes both options. After selecting the appropriate connec­tion, set the internal jumpers as described in section 3.1.2 of this man­ual.

4.1.1 Connect Twisted Pair (120 Ohm) to G.703/G.704 Network

The Model 1186 is equipped with a single RJ-48C jack option for
connections to a G.703/G.704 Network. If your G.703/G.704 Network
terminates via an RJ-48C, use the diagram below (Figure 6).

4.1.2

Connect Coax Cable to the G.703/G.704 Network

The Model 1186 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,

10

use the diagram below to make the proper connections. The connec­tor pinout and signals are shown in Figure 7, below.

4.2 CONNECT THE FIBER INTERFACE

The Model 1186 is designed to be connected to another Model

1186. The Model 1186 supports communication between G.703/G.704
equipment over one string of multi-mode fiber at distances up to 2.5
km (1.5 miles). One modem can connect to another on the end of a
single string of fiber optic cable.

To connect two Model 1186s, use one string of 62.5/125 micron
multi-mode fiber. The fiber connects to each Model 1186 using either
an ST or an SMA connector.

Figure 8 below shows a close-up of both connector types.

Figure 5. G.703/G.704 Interface and power connection ports

RX

(Data FROM

G.703/G.704

Network)

TX

(Data TO

G.703/G.704

Network)

Network

Figure 7. Fiber cable to G.703/G.704 Interface connection

G.703/G.704

Figure 6. G.703/G.704 Network Interface.

1 RX Data (TIP)
2 RX Data (RING)
3 (no connection)
4 TX Data (TIP)
5 TX Data (RING)
6 (no connection)
7 (no connection)
8 (no connection)

1
2
3
4
5
6
7
8

Figure 8: Model 1186 SMA and ST multi-mode fiber connectors

}

}

From Network

To Network

11

4.3 POWER CONNECTION

4.3.1 Universal AC Power (100-240VAC)

The Model 1186 uses a 5VDC, 2A universal input 100-240VAC,
power supply (center pin is +5V). The universal input power supply
has a male IEC-320 power entry connector. This power supply con­nects to the Model 1186 by means of a barrel jack on the rear panel.
Many international power cords are available for the universal power
supply (Please refer to Appendix B for country-specific power cords).

The Model 1186 powers up as soon as it is plugged into an AC
outlet. The unit does not have a power switch.

4.3.2 DC Power

The 36-60 VDC DC to DC adapter is supplied with the DC version
of the Model 1186. The black and red leads plug into a DC source
(nominal 48VDC) and the barrel power connector plugs into the barrel
power supply jack on the rear panel of the 1186. (See Figure 9).

Figure 9. Connect DC power to the 48V-PSM3 DC power supply

WARNING! There are no user-serviceable parts in the

power supply section of the Model 1186. Fuse replacement
should only be performed by qualified service personnel.
Contact Patton Electronics Technical Support at

(301) 975-

1007

, via our web site at http://www.patton.com, or by e-mail

at support@patton.com, for more information.

55 .. 00 OO PP EE RRAATTII OONN

Once the Model 1186 is properly configured and installed, it should
operate transparently. This section describes power-up, reading the
LED status monitors, and using the built-in loopback test modes.

5.1 POWER-UP

To apply power to the Model 1186, first be sure that you have read
Section 4.3, and that the unit is connected to the appropriate power
source.

Next, make sure that front panel switches are set to Normal condi­tion. Then, plug provided power adapter (see section 4.3) first into the
rear panel outlet of the Model 1186, and then into the acceptable power
outlet (AC or DC depending on the model -UI or -DC). After both the
local and remote Model 1186s are powered up, a synchronization
process will occur to establish a link. The synchronization process
should take only a few seconds (<5 sec). Any time one of the Models
1186 loses power (i.e., in a lightning storm), the local and remote units
will re-synchronize before they can resume data transmission.

When the local and remote units have established a link and are
passing reliable data, the following LED conditions will exsit:

· Fiber = GREEN

· E1 = GREEN

· LOS = OFF

· NS = OFF

· ER = OFF

· TM = OFF

5.2 LED STATUS MONITORS

The Model 1186 features six front panel status LEDs that indicate
the condition of the modem and communication link. Figure 10 shows
the front panel location of each LED.

12

Figure 10. Model 1186 front panel

Multi-Mode Fiber G.703/G.704 Modem

To Power

Supply Jack

Barrel power connector

S/N: G01234567890

MADE IN CHINA BY SUNNY

SWITCHING POWER SUPPLY

MODEL : SYD1106-0505

INPUT : 36-60V 0.2A MAX

OUTPUT : +5V 1.0A

OUTPUT POWER : 5W MAX

-Vin

+Vin

To -48VDC

Source

Black lead (-V)
Red lead (+V)

Functions of LEDs are as follows:

Fiber The green Fiber LED indicates reliable data on the fiber side

E1 The green E1 LED indicates reliable data on the G.703/G.704

side

LOS The red LOS indicates that syncronization between modems

has not been established. Blinking red LOS LED indicates the
presense of coding errors

NS The red NS LED indicates that the signal on the fiber side is

too weak to be detected, which can be due to any of the fol­lowing reasons:

- break in the fiber optic cable

- length of the fiber optic cable exceeds the maximum dis­tance

- problem with Fiber LED.

ER Flashing red ER LED indicates errors in 511 test pattern

TM The yellow TM LED indicates that modem is in a test mode

(Local/Remote Loopback or 511/511E test pattern). Opaque
TM indicates normal operation.

13

5.3 TEST MODES

The following section describes the test patterns and loopbacks
used in the Model 1186. The Model 1186 offers V.54 compliant
local/remote loopback tests, plus a built-in V.52 BER test pattern gener­ator to evaluate the condition of the modems and the communication
link. These tests can be activated physically from the front panel.

5.3.1 Local Loopback

The local loopback test checks the operation of the local Model
1186, and is performed separately on each unit. The following section
describes how to perform a local loopback test between the Network
and a local connection.

Any data sent to the local Model 1186 in this test mode will be echoed
(returned) back to the user (see Figure 11). If two Model 1186 units are
linked when the LAL is activated, data sent from the remote modem will
also be looped back to the remote terminal equipment.

To test the local connection, follow these steps:

1. Activate LAL by moving the front panel toggle switch UP to "Local".
Once the Local Loopback is activated, the Model 1186 transmit output
will be connected to its own receiver. The TM LED will light up.

2. Perform a BER (Bit Error Rate) test on each unit using a separate
BER tester. If the BER test equipment indicates no faults, but the data
indicates a fault, follow the manufacturer's checkout procedures for the
data terminal. Also, check the interface cable between the terminal and
the Model 1186. The BER test can also be performed using a built-in
511/511E pattern generator. (See section 5.3.3 on how to use the built-in
511/511E pattern generator.)

3. Upon completion of the LAL test, return the front panel switch to the
NORMAL position. The TM LED should turn off.

14

Figure 11. Local Loopback Diagram

G.703/G.704

Network

5.3.2. Remote Digital Loopback (RDL)

The Remote Digital Loopback test checks the performance of both
the local and remote Model 1186s, and the communication link
between them. In this test, any characters sent from the originating
device to the remote unit will be returned (see Figure 12). Any data
sent from the remote DTE wil be ignored.

To perform a RDL test, follow these steps:

1. Activate RDL by moving front panel toggle switch DOWN to
"Remote". The TM LED on both local and remote units will light up.

2. Perform a BER (Bit Error Rate) test on the system, using BER tester
on the local end. BER test can also be performed using built-in
511/511E pattern generator. (See section 5.3.3 on how to use the built­in 511/511E pattern generator.)

3. If the BER test equipment indicates a fault and the Local Analog
Loopback test was successful for both Model 1186s, there may be a
problem with the line between the units.

4. Upon completion of the RDL test, return the front panel switch to
the NORMAL position. The TM LED should turn off on both local and
remote units.

5.3.3. V.52 Test Pattern Generator

To use the V.52 BER test in conjunction with the Local or Remote
Loopbacks, follow these instructions:

1. Locate the "511/511E" toggle switch on the front panel of the Model
1186 and move it UP. This activates the V.52 BER test mode and
transmits a "511" test pattern into the loop. If any errors are present,
the local modem's red "ER" LED will blink intermittently.

15

2. If the above test indicates no errors, move the V.52 toggle switch
DOWN, activating the "511/E" test with errors present. If the test is
working properly, the local modem's red "ER" LED will blink once every
two seconds. A successful "511/E" test will confirm that the link is in
place, and that the built-in "511" generator and detector are working
properly.

16

Figure 12. Remote Loopback Diagram

G.703/G.704

Network

Note: When the unit is set for Network Clock Mode, the unit will
derivew its timing from the G.703/G.704 Interface. Failure to connect
to G.703/G.704 may result in bit errors during the 511 or 511/E test.

AAPPPPEENNDDII XX AA

PATTON ELECTRONICS MULTI-MODE FIBER MODEM WITH

G.703/G.704 FIBER INTERFACE

SPECIFICATIONS

Clocking Modes:

Network (G.703/G.704), Internal, Receive
Recover

Line Rate: 2048 kbps
Diagnostics: V.52 compliant (511/511E) pattern generator

and detector with error injection mode.
Remote Loopback (toward fiber line) and
local loopback (toward G.703/G.704 net­work) controlled by a single front panel
switch

LED Status: The following LEDs are displayed on the

front panel:
Fiber: The green Fiber LED indicates reli­able data on the fiber side
E1: The green E1 LED indicates reliable
data on the G.703/G.704 side
LOS: The red LOS indicates that syncro­nization between modems has not been
established. Blinking red LOS LED indicates
the presense of coding errors
NS: The red NS LED indicates that the sig
nal on the fiber side is too weak to be
detected
ER: Flashing red ER LED indicates errors in
511 test pattern
TM: The yellow TM LED indicates that
modem is in a test mode
(Local/Remote Loopback or 511/511E test
pattern). Opaque TM LED indicates normal
operation.

Configuration: Externally accessible dip switches
Power: 5 VDC from external desk top power supply,

90-260VAC, 50-60 Hz (Universal
Input), 10W or -48 VDC

Compliance: FCC Part 15, CE, CTR12
Transmission Line: Single fiber
Line Coding: 8B10B
Line Interface: Transformer coupled, 1500 VAC isolation
Fiber Physical
Connection:

One string of 62.5 M25 mm fiber with SMA
or ST connectors

17

G.703/G.704 Specific

Interface:

Female Dual Coaxial 75 ohm or
Female RJ-48C 120 ohm

Line rate:

2.048 Mbps

Line coding: AMI or HDB3 (HDB3 is the default)
Isolation: 1500 Vrms
Physical Connection: pin 1 Rx Data +
(RJ-48C) pin 2 Rx Data -

pin 4 Tx Data +
pin 5 Tx Data ­pins 3, 6, 7, 8 no connection

18

AAPPPPEENNDDII XX BB

PATTON ELECTRONICS MODEL 1186

FACTORY REPLACEMENT PARTS

AND ACCESSORIES

Patton Electronics Model # Description

1186 ................................multi-mode fiber optic modem

1186RC............................multi-mode fiber rack card modem

48V-PSM.........................DC Power Supply Module

08055DCUI .....................100-240VAC (+5V ±5% reg. DC/2A)

Universal Input Adapter

0805EUR ........................European Power Cord CEE 7 (“A”)

0805UK ...........................United Kingdom Power Cord (“D”)

0805US ...........................American Power Cord (“K”)

0805AUS.........................Australia/New Zealand Power Cord (“C”)

0805DEN.........................Denmark Power Cord (“E”)

0805FR............................France/Belgium Power Cord (“F”)

0805IN.............................India Power Cord (“G”)

0805IS.............................Israel Power Cord (“H”)

0805JAP..........................Japan Power Cord (“J”)

0805SW...........................Switzerland Power Cord (“L”)

07M1186..........................User Manual

Copyright ©2006

Patton Electronics Company

All Rights Reserved

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