USER
MANUAL
MODEL 2701/B, C, D
G.703/G.704 NTU with
EIA-530,V.35, X.21
Interfaces
Part# 07M2701/X
Doc# 086101U Rev. B
Revised 1/6/05
SALES OFFICE
(301) 975-1000
TECHNICAL SUPPORT
(301) 975-1007
An ISO-9001Certified
Company
A.7 Clocking ...................................................................................... 21
A.9 Network Data Rates .................................................................... 21
A.10 Distance ...................................................................................... 21
A.11 Configuration .............................................................................. 21
A.13 Humidity ...................................................................................... 22
A.14 Temperature ............................................................................... 22
A.15 Dimensions ................................................................................. 22
B
C
D
E
Interface Pin Assignment......................................................... 23
Interface Pin Assignment......................................................... 25
Interface Pin Assignment......................................................... 27
Factory Replacement Parts and Accessories........................ 28
3
1.0 WARRANTY INFORMATION
Patton Electronics warrants all Model 2701/I 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 specifi-
cally disclaims all other warranties, expressed or implied, and the instal-
lation or use of this product shall be deemed an acceptance of these
terms by the user.
1.1 RADIO AND TV INTERFERENCE
The Model 2701 generates and uses radio frequency energy, and if not
installed and used properly—that is, in strict accordance with the manu-
facturer's instructions—may cause interference to radio and television
reception.The Model 2701 has been tested and found to comply with the
limits for a Class A computing device in accordance with the specifica-
tions in Subpart J 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 Model 2701 does cause interference to radio
or television reception, which can be determined by disconnecting the
cables, 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 Union European (EU). A Cer-
tificate of Compliance is available by contacting Technical Support.
4
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 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
Note Packages received without an RMA number will not be
accepted.
5
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 or problems arise during
installation or use of this product, please do not hesitate to contact Pat-
ton Electronics Technical Support at (301) 975-1007.
2.1 FEATURES
• Terminates G.703 and G.704, E1/fractional E1 service
• Available in low-cost standalone or rack-mountable versions
• n x 64 kbps data rates to 2 Mbps
• X.21, V.35, and EIA-530
• Switch-selectable AMI or HDB3 line encoding options
• Switch-selectable DTE/DCE modes for X.21 version
• 75-ohm dual coax and 120-ohm twisted-pair G.703 connections
• Local and remote loopback diagnostics
• Internal, external, and G.703 network timing
• CE and BABT approvals
• 100–240 VAC and 48 VDC power options
• Conforms to ONP requirements CTR 12 and CTR 13 for connection to
international Telecom networks
2.2 DESCRIPTION
The Model 2701 receives channelized G.704 (n x 64 kbps) or clear chan-
nel E1/G.703 (2.048-Mbps) data from the Telco’s digital data network.
The Model 2701 terminates the G.703 telco interface and converts the
data for transmission to a user-oriented serial [X.21, V.35, and EIA-530
(V.36/RS422)]. The 2701 can connect to a Router, FRAD, PABX or Multi-
plexer over its serial interface at nx64kbps data rates up to 2.048 Mbps.
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, contact Patton Electronics Technical
Support at (301) 975-1007.
6
3.0 CONFIGURATION
The Model 2701 features configuration capability via hardware DIP
switches.This section describes all possible DIP switch configurations of
the Model 2701.
3.1 DIP SWITCH CONFIGURATION
The Model 2701 has two sets of internal DIP switches that allow configu-
ration for a wide range of applications.The sets of switches are accessed
from the underside of the 2701. Figure 1 shows the location of the DIP
switches on the bottom of the printed circuit board.
Figure 1. Underside of Model 2701, Showing Location of DIP Switches
The Model 2701 DIP switches (Switch Sets 1–2) can be configured as
either “ON” or “OFF”. Figure 2 shows the orientation of the DIP switches
with respect to ON/OFF positions.
Figure 2. Close up of configuration switches
7
Switch SW1-1 through SW1-5
A detailed description of each switch (SW1-1 through SW1-5) setting fol-
lows the summary table below.
Table 1: Switch Set 1 Summary Table
SW1 SW2 SW3 SW4 SW5
Speed
On
Off
On
Off
On
Off
On
Off
On
Off
On
Off
On
Off
On
Off
On
Off
On
Off
On
On
Off
Off
On
On
Off
Off
On
On
Off
Off
On
On
Off
Off
On
On
Off
Off
On
On
On
On
Off
Off
Off
Off
On
On
On
On
Off
Off
Off
Off
On
On
On
On
On
On
On
On
On
On
On
On
Off
Off
Off
Off
Off
Off
Off
Off
On
On
On
On
On
On
On
On
On
On
On
On
On
On
On
On
On
On
On
On
Off
Off
Off
Off
64 kbps
128 kbps
192 kbps
256 kbps
320 kbps
384 kbps
448 kbps
512 kbps
576 kbps
640 kbps
704 kbps
768 kbps
832 kbps
896 kbps
960 kbps
1024 kbps
1088 kbps
1152 kbps
1216 kbps
1280 kbps
8
SW1 SW2 SW3 SW4 SW5
Speed
On
Off
On
Off
On
Off
On
Off
On
Off
On
Off
On
On
Off
Off
On
On
Off
Off
On
On
Off
Off
Off
Off
Off
Off
On
On
On
On
Off
Off
Off
Off
On
On
On
On
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
Off
1344 kbps
1408 kbps
1472 kbps
1536 kbps
1600 kbps
1664 kbps
1728 kbps
1792 kbps
1856 kbps
1920 kbps
1984 kbps
Clear Channel 2048 kbps
Note When the data rate is set to 2.048Mb/s, the unit is forced into
G.703 mode, and it transmits user data on all 32 time-lots.There
is no framing information; therefore, the CRC4 MF (SW2-2)
switch is ignored. In all other rate settings, the unit employs
G.704 framing; TS0 is reserved for signaling.
SW1-6 SW1-7
Clock Mode
On
On
Off
Off
On
Off
On
Off
Network (Received Recovered)
Internal
External
Network (Received Recovered)
SW1-6 and SW1-7 Clock Modes
Use Switches SW1-6 and SW1-7 to configure the 2701 for internal,
external, or receive recover clock mode.
Network Clock—Transmitter timing is derived using the received line
signal (received recovered) from the network.
Internal Clock—Transmitter timing is derived from an internal clock
source.
External Clock—Transmitter timing is derived from DTE terminal timing.
9
SW1-8: Enable/Disable Loop Tests from DTE
Use Switch SW1-8 to allow Model 2701 to enter loopback tests when the
DTE raises the appropriate loop request pin.
S1-8
Setting
Off
On
Response to DTE Loopback Request Enabled
Response to DTE Loopback Request Disabled
Position
Function
Factory Default
Selected Option
SW2-1
SW2-2
SW2-3
SW2-4
SW2-5
SW2-6
SW2-7
SW2-8
Line Coding
CRC-4 multiframe
Data Inversion
V.54/CSU select
FPS enabled
V.54 Response
Not Used
Off
Off
Off
Off
Off
On
N/A
N/A
HDB3
Disabled
Data Not Inverted
V.54 RDL loop
Enabled
Disabled
N/A
Not Used
N/A
Switch SW2-1 Line Coding: HDB3 (default)
Use Switch SW2-1 to control the Network Line Coding options. Set these
options to be the same as the Line Coding given to you by your Service
Provider. If you are using two Model 2701s together as short range
modems, set both units to HDB3.
SW2-1 Line Encoding
Off
On
HDB3
AMI
Options: HDB3, AMI
HDB3 In this line coding, the transmitter substitutes a deliberate bipo-
lar 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.
AMI
Alternate Mark Inversion 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.
10
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 NTU receiving the signal relies on
the signal to recover the 2.048 Mb/s clock.
If you must use AMI, you should ensure that the data terminal
equipment connected to the unit provides a minimally accept-
able 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, the user should ensure
that the data inherently meets pulse density requirements.
Switch SW2-2: CRC-4 Multiframe
In framed mode, SW2-2 is used for CRC-4 MF. When CRC-4 is enabled,
the unit monitors the incoming data stream for CRC-4 errors. It transmits
CRC-4 error counts to the transmitting unit. When using timeslot zero
(TS0), excessive errors may cause loss of frame or loss of sync. If CRC-
4 MF is used, both units must be set for set for CRC-4 MF. Otherwise, the
one using CRC-4 MF will detect loss of sync.
SW2-2
Option
Off
On
CRC-4 Disabled
CRC-4 Enabled
Note When the data rate is set to 2.048Mb/s, then the unit is forced
into G.703 mode, and it transmits user data on all 32 time-lots.
There is no framing information; therefore, the CRC4 MF (SW2-
2) switch is ignored. In all other rate settings, the unit employs
G.704 framing; TS0 is reserved for signaling.
Switch SW2-3 Data Inversion
Set Switch S2-3 to determine whether or not the data stream from the
local DTE is inverted within the Model 2701 before being passed to the
G.703/G.704 network. An inverted data stream may be required when
you use the Model 2701 to communicate with a G.703 device (that
inverts the data) on the remote end. In typical installations, data inversion
is not necessary.
SW2-3
Option
Off
On
Data not inverted
Data inverted
11
Switch SW2-4: Remote Digital Loopback Type
The user can set this switch to select the type of remote loop that will be
initiated by the Model 2701. If set to V.54, the Model 2701 will initiate a
V.54 loop when Remote Loop is selected by the front panel switches. If
set to CSU, the Model 2701 will initiate a CSU loop when Remote Loop
is selected by the front panel switches.
S2-4
RDL Type
Off
On
Initiate a V.54 RDL loop when selected
Initiate a CSU loopback when selected
Switch SW2-5 Front Panel Switches
As the Front Panel Switches may be inadvertently toggled, or in the
event that the end-user may not need to use the switches, the installer
may disable the front panel switches. Set Switch S2-5 to determine
whether the front-panel toggle switches are active or inactive.
SW2-5
Option
Off
On
Front Panel Switches Enabled
Front Panel Switches Disabled
Switch SW2-6:V.54 Response Disabled (default)
V.54 Response is a special in-band loopback facility that sends a
pseudo-random pattern over the data stream. This is the only loopback
that the unit can initiate. This is useful for campus applications when you
need to put a remote unit in loopback.The unit responds to the V.54 loop-
back command, and the whole process takes only a few seconds to com-
plete. When V.54 Loopback is disabled, the unit will not be able to send
or respond to V.54 loopback commands. The duration of the loopback is
limited by the loopback timeout setting.
SW2-6
Option
Off
On
V.54 Response Enabled
V.54 Response Disabled
12
4.0 INSTALLATION
Once the Model 2701 is properly configured, it is ready to connect to the
G.703/G.704 interface, to the serial port, and to the power source. This
section describes how to make these connections.
4.1 CONNECTING TO THE G.703 NETWORK
The Power, G.703/G.704 and serial Line connections are located on the
rear panel of the Model 2701. The following sections describe operation
of these connections.
Connecting the 2701/D (X.21 version) Dual Coaxial Cable
(75 ohm) to the G.703 Network
The Model 2701/D (X.21 version) is equipped with dual female BNCs
(TX and RX) for connection to a 75 ohm dual coax G.703 network inter-
face. If your G.703/G.704 network terminates via dual coaxial cable, use
the diagram below to make the proper connections. See Figure 3.
Figure 3. Rear Panel, Showing Location of Connectors.
Note The outer conductor of the coax cables are isolated from system
earth ground.
When using the 75 Ohm interface, jumper straps JP2, JP5, JP6, and JP7
must be installed over the jumpers. The jumpers are located next to the
BNC connectors. Refer to the following section to open the case. Open
the case and install jumper straps for JP2, JP5, JP6, and JP7.
Opening the Case
Open the case by inserting 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.
Connecting the Twisted Pair (120 ohm) to the G.703 Network
The Model 2701 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 connection diagram
13
(Figure 4) following the pinout and signals chart below to connect the
120 ohm G.703/G.704 network channel.
Figure 4. G.703/G.704 170 ohm Connection.
4.2 CONNECTING THE SERIAL PORT
The Model 2701/B, C, D supports RS-530, V.35, X.21 serial port connec-
tions. This section describes how to connect the serial ports to your ter-
minal equipment.
Connecting to a “DTE” Device
The serial port on the 2701/B (RS-530 version) and 2701/C (V.35 ver-
sion) is hard-wired as a DCE. Therefore these modules “want” to plug
into a DTE such as a terminal, PC or host. When making the connection
to your DTE device, use a straight through cable of the shortest possible
length—we recommend 6 feet or less. When purchasing or constructing
an interface cable, please refer to the pin diagrams in Appendix D as a
guide.
14
Connecting to a “DCE” Device
If the Model 2701 serial interface is hard-wired as a DCE (all except the
X.21 version), you must use a null modem cable when connecting to a
modem, multiplexer or other DCE device. This cable should be of the
shortest possible length—we recommend 6 feet or less.
Configuring the X.21 Interface (2701/D)
The serial port on the X.21 interface is default wired as a DCE, but may
be switched to a DTE. This is done by reversing the orientation of the
DCE/DTE strap, as described below:
To reverse DCE/DTE orientation, remove the top case. Refer to section
“Opening the Case” on page 13
The DCE/DTE strap is located near the DB15 connector on the top side
of the 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
DB-15 connector, the X.21 port is wired as a DCE). Reverse the DCE/
DTE orientation by pulling the strap out of its socket, rotating it 180º, then
plugging the strap back into the socket.You will see that the DCE/DTE
arrows now point in the opposite directions, showing the new configura-
tion of the X.21 port.
Note If the 2701/D is configured as a DTE, the clocking mode must be
set for external clock.
4.3 POWER CONNECTION
Universal AC Power (100–240 VAC)
The Model 2701 uses a 5VDC, 2A universal input 100–240 VAC, 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 2701 by means of a barrel jack on the rear panel. Many interna-
tional power cords are available for the universal power supply.
The Model 2701 powers up as soon as it is plugged into an AC outlet--
there is no power switch.
15
DC Power
The 36–60 VDC DC to DC adapter supplied with the DC version of the
Model 2701 plugs in a DC source (nominal 48 VDC) and plugs into the
barrel power supply jack on the rear of the 2701. Refer to Figure 5 to
make the proper connection.
Figure 5. Connecting DC Power to the 2701 DC Power Supply.
There are no user-serviceable parts in the
power supply section of the Model 2701. Con-
tact Patton Electronics Technical support at
(301)975-1007, via our web site at http://
ton.com, for more information.
WARNING
16
5.0 OPERATION
When the Model 2701 has been properly configured and installed, it
should operate transparently. This sections describes power-up, LED
status monitors, and the built-in loopback test modes.
5.1 POWER-UP
Before applying power to the Model 2701, please read “Power Connec-
appropriate power source.
5.2 LED STATUS MONITORS
The Model 2701 features six front panel LEDs that monitor connections
on the G.703/G.704 and signaling, error and test modes. Figure 6 shows
the front panel location of each LED. Descriptions of each LED follow
Figure 6.
Figure 6. 2701 Front Panel
E1 Link
(Active Green) Solid green (On) indicates that the end to end E1
Link is up, signifying that the link is active. The E1 Link LED is
Off when the link is down.
TD & RD
Glows yellow to indicate an idle condition of Binary “1” data on
the respective terminal interface signals. Green indicates Binary
“0” data.
LOS
The Loss of Sync LED lights when the unit loses synchroniza-
tion with the incoming signal. This may happen when there is a
framing mismatch or a loss of signal. In unframed mode, the
LOS LED monitors the status of the transmit clock.
ER
The error LED indicates various error conditions, including fram-
ing bit errors, excessive zeros, controlled slips, severe errors, or
bit errors (when sending V.52 test patterns). When sending a
test pattern, the LED will remain lit if the unit does not receive
17
the identical pattern. When it receives the correct pattern, the
LED will turn off. If error insertion is on, the LED will blink once a
second if everything is operating properly.
TM
(Active Yellow) Solid Yellow indicates an Active Test Mode. The
unit may be placed in test mode by the local user or by the
remote user.
5.3 LOOP (V.54 & TELCO) DIAGNOSTICS
The Model 2701 offers three V.54 loop diagnostics. Use these diagnos-
tics to test the NTU and any communication links. These tests can be
activated via the front panel switches or via signals on the Model 2701/B
and C serial port interface.
Operating Local Loopback (LL)
The Local Loopback (LL) test checks the operation of the local Model
2701, and is performed separately on each unit. Any data sent to the
local Model 2701 in this test mode will be echoed (returned) back to the
user device (i.e., characters typed on the keyboard of a terminal will
appear on the terminal screen).
Figure 7. Local Loopback for a Network Termination Application
To perform a LL test, follow these steps:
1. Activate LL. This may be done in one of two ways:
—
—
Place the switch on the front panel in the “Local” position.
Activate the “LL” signal on the DTE (2701/B and 2701/C only).
If you are not sure which lead is the “LL” signal, please refer to
Appendix D.
18
2. Verify that the data terminal equipment is operating properly and
can be used for a test.
3. Perform a V.52 BER (bit error rate) test as described in section
“Using the V.52 (BER) Test Pattern Generator” on page 20. If the
BER test equipment indicates no faults, but the data terminal indi-
cates a fault, follow the manufacturer’s checkout procedures for the
data terminal. Also, check the interface cable between the terminal
and the Model 2701.
Operating Remote Digital Loopback (RL)
The Remote Digital Loopback (RL) test checks the performance of both
the local and remote NetLink-E1™, as well as the communication link
between them. Any characters sent to the remote NetLink-E1™ in this
test mode will be returned back to the originating device (i.e, characters
typed on the keyboard of the local terminal will appear on the local termi-
nal screen after having been passed to the remote NetLink-E1™ and
looped back).
Figure 8. Remote Loop in a Network Extension Application
There are two Remote Loops that can be initiated from the NetLink-E1
unit: (1) V.54 Loop, and; (2) CSU Loop. The user can select the type of
loop that can be initiated by Switch S2-4. When a loopback is initiated
this is the type of loop that the unit uses to loop up the remote unit and
which type of loop the unit will respond to.
To perform an RDL test, follow these steps:
1. Activate RDL. This may be done in two ways:
—
Activate the “RL” signal on the DTE (2701/B and 2701/C only). If
you are not sure which lead is the “RL” signal, please refer to
Appendix B or C, depending on the version you are using.
19
—
Set the front panel switch to “Remote”.
2. Perform a bit error rate test (BERT) using the internal V.52 genera-
tor (as described in section “Using the V.52 (BER) Test Pattern
Generator”), or using a separate BER Tester. If the BER test indi-
cates a fault, and the Local Line Loopback test was successful for
both NetLink devices, you may have a problem with the twisted
pair line connection.
CSU Loop
Although CSU Loop is predominantly a T1 function, the NetLink-2701
responds to central office initiated loop commands. Customers can use
this facility when the Central Office network switch supports CSU loops
over an E1 interface.
When CSU Loop is selected, the NetLink 2701 will implement the “loop
up” command when it recognizes the pattern “10000” in the data stream
for a minimum of 5 seconds. The “loop down” command is implemented
by the pattern “100” in the data stream for a minimum of 5 seconds.
The NetLink 2701 will respond to Universal Loopback De-activate to
clear all central office loops.
Using the V.52 (BER) Test Pattern Generator
To use the V.52 BER tests in conjunction with the Remote Digital Loop-
back tests (or with Local Line Loopback tests), follow these instructions:
1. Locate the “511/511E” toggle switch on the front panel of the 2701
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 illuminate.
2. If the above test indicates no errors are present, move the V.52 tog-
gle 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 second. A successful “511/E” test will confirm that
the link is in place, and that the Model 2701’s built-in “511” generator
and detector are working properly.
Note The above V.52 BER tests can be used independently of the
Remote Digital Loopback tests.This requires two operators: one
to initiate and monitor the tests at the local Model 2701, and one
to do the same at the remote Model 2701. In this case, the test
pattern sent by each Model 2701 will not be looped back, but will
be transmitted down the line to the other Model 2701. While one
operator initiates test, the other monitors for errors.
20
APPENDIX A
SPECIFICATIONS
A.1 NETWORK DATA RATE
2.048 Mbps
A.2 NETWORK CONNECTOR
RJ-48C/Dual Coax BNC (2701/D)
A.3 NOMINAL IMPEDANCE
75/120 ohm
A.4 LINE CODING
Selectable AMI or HDB3
A.5 LINE FRAMING
G.703 (Unframed) or G.704/G.732 (Framed)
A.6 CRC-4 MULTIFRAMING
Selectable On or Off
A.7 CLOCKING
Internal, External, or Network (Receive Recover)
A.8 TIME SLOT RATE
64 kbps
A.9 NETWORK DATA RATES
64, 128, 192, 256, 320,384, 448, 512, 576, 640, 704, 768, 832, 896, 960,
1024, 1088, 1152, 1216, 1280, 1344, 1408, 1472, 1536, 1600, 1664,
1728, 1792, 1856, 1920, 1984, 2048 kbps
A.10 DISTANCE
Maximum 1.6 km (5,250 ft.) on 24 AWG Cable
A.11 CONFIGURATION
Two 8-Position DIP Switches
21
APPENDIX B
INTERFACE PIN ASSIGNMENT
EIA-530 Interface Pin Description
(DB-25 Female Connector)
(DCE Configuration)
Pin #
Signal
1
FG (Frame Ground)
2
TD (Transmit Data)
3
RD (Receive Data)
4
RTS (Request to Send)
CTS (Clear to Send)
5
6
DSR (Data Set Ready)
SGND (Signal Ground)
CD (Carrier Detect)
7
8
9
RC/ (Receive Timing-B)
CD/ (Carrier Detect-B)
XTC/ (External Transmit Clock)
TC/ (Transmit Clock-B)
CTS/ (Clear to Send)
TD/ (Transmit Data-B)
TC (Transmit Clock-A)
RD (Receive Data)
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
RC (Receive Timing)
LLB (Local Line Loop)
RTS/ (Request to Send)
DTR (Data Terminal Ready)
DL (Remote Digital Loop)
DSR/ (Data Set Ready)
DTR/ (Data Terminal Ready)
XTC (External Transmit Clock)
TM (Test Mode)
23
24
APPENDIX C
INTERFACE PIN ASSIGNMENT
V.35 Interface
(M/34F Female Connector)
(DCE Configuration)
Pin #
Signal
B
C
D
E
SGND (Signal Ground)
RTS (Request to Send)
CTS (Clear to Send)
DSR (Data Set Ready)
CD (Carrier Detect)
F
H
L
DTR (Data Terminal Ready)
LLB (Local Line Loop)
TM (Test Mode)
M
N
P
RDL (Remote Digital Loop)
TD (Transmit Data)
R
S
RD (Receive Data)
TD/ (Transmit Data-B)
RD/ (Receive Data-B)
XTC (External Transmit Clock)
RC (Receive Timing)
XTC/ (External Transmit Clock)
RC/ (Receive Timing)
TC (Transmit Clock-A)
TC/ (Transmit Clock-B)
T
U
V
W
X
Y
AA
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APPENDIX D
INTERFACE PIN ASSIGNMENT
X.21 Interface
(DB-15 Female Connector)
(DTE /DCE Configuration)
Pin #
Signal
Frame Ground
1
2
T (Transmit Data-A)
C (Control-A)
3
4
R (Receive Data-A)
I (Indication-A)
5
6
S (Signal Element Timing-A)
BT (Byte Timing-A)
SGND (Signal Ground)
T/ (Transmit Data-B)
C/ (Control-B)
7
8
9
10
11
12
13
14
R/ (Receive Data-B)
I/ (Indication-B)
S/ (Signal Element Timing-B)
BT/ (Byte Timing-B)
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APPENDIX E
FACTORY REPLACEMENT PARTS AND ACCESSORIES
Patton Model #
Description
2701/B
2701/C
G.703/G.704 NTU with RS-530 interface
G.703/G.704 NTU with a V.35 interface
G.703/G.704 NTU with an X.21 interface
G.703/G.704 NTU w/ 10Base-T EN interface
American Power Cord
2701/D
2701/I
0805US
0805EUR
0805UK
0805AUS
0805DEN
0805FR
0805IN
European Power Cord CEE 7
United Kingdom Power Cord
Australia/New Zealand Power Cord
Denmark Power Cord
France/Belgium Power Cord
India Power Cord
0805IS
Israel Power Cord
0805JAP
0805SW
08055DCUI
07M2701
Japan Power Cord
Switzerland Power Cord
Universal Input Power Supply
User Manual
Copyright © 2004
Patton Electronics Company
All Rights Reserved.
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