Patton electronic Network Card 1050patton User Manual

USER  
MANUAL  
MODEL 1050  
AC Powered, Asynchronous  
Short Range Modem  
SALES OFFICE  
(301) 975-1000  
TECHNICAL SUPPORT  
(301) 975-1007  
Part #07M1050-B  
Doc. #058031B  
Revised 7/30/97  
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An ISO-9001  
Certified Company  
 
2.0 GENERAL INFORMATION  
3.0 CONFIGURATION  
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.  
The Model 1050 may be configured for a wide variety of  
asynchronous RS-232 applications. This section will tell you how to  
access and set the internal DCE/DTE switch and the internal carrier  
control strap. WAIT. Before attempting to re-configure the Model 1050,  
check the Default Configuration Table (below) to see if the factory  
settings are correct for your application.  
2.1 FEATURES  
DEFAULT 1050 CONFIGURATION TABLE  
Switch (Strap)  
Factory Setting  
Result  
• Asynchronous RS-232 Operation  
• Data Rates to 38,400 bps  
DTE/DCE Switch  
DCE  
Model 1050 is set to connect to  
DTE device (PC, Terminal, etc.)  
• Distances up to 7 miles (ll.2 km)  
• Point-to-Point or Multipoint Operation  
• Optical Isolation  
Carrier Control Strap  
Pegs 1 & 2  
Carrier is “Controlled by RTS”  
• Loopback Tests  
• Tri-State LED Indicators  
3.1 ACCESSING THE MODEL 1050 PC BOARD (see Note 1)  
• DCE/DTE switch selectable  
• Carrier Selectable for “Constantly On” or “Controlled by RTS”  
• Both RJ-11 and Terminal Block Line Connectors  
• Ultra-Compact Enclosure  
To access the internal PC board, simply remove the two screws at  
the rear of the unit and slide the PC board and rear panel out of the  
case. Figure 1 (below) shows the location of the DCE/DTE switch and  
the RTS strap on the PC board.  
• Externally Powered  
Carrier Control Strap  
2.2 DESCRIPTION  
The Patton Model 1050 AC Powered Asynchronous Short Range  
Modem is to our AC powered short haul line what the Model 1000 is to  
our interface powered line–a basic short haul at a great price! And the  
Model 1050 has the key features you need: optical isolation, a local  
loopback test mode, LED indicators and a DCE/DTE switch. The  
Model 1050 supports asynchronous RS-232 data rates to 38.4 Kbps.  
Distances of 7 miles (11.2 km) (@ 1200 bps) are attainable over two  
24 AWG (.5mm) twisted pair.  
123  
DCE/DTE Switch  
DTE  
DCE  
Housed in an ultra-compact metal enclosure, the Model 1050 offers a  
choice of line connections: both external RJ-11 jack and internal  
terminal block are provided. On the RS-232 side, a female DB-25 is  
standard. The Model 1050 is designed for point-to-point or multipoint  
applications, and is also compatible with the Patton 1060 and 1226  
short hauls.  
Figure 1. Switch/Strap locations on Model 1050 PC board.  
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4.0 INSTALLATION  
3.2 SETTING THE DCE/DTE SWITCH  
The Model 1050 is easy to install. After configuring the unit  
properly, you will need to connect the two twisted pairs and the RS-232  
cable. Figure 2 (below) shows the rear panel location of the RJ-11 jack  
and strain relief grommet (line connections), as well as the female DB-  
25 (RS-232 connection).  
Correct setting of the DCE/DTE switch eliminates the need for RS-  
232 crossover cables. If the RS-232 device you are connecting to the  
Model 1050 is a PC, terminal or host, or is wired like one, set the  
DCE/DTE switch to "DCE". If the RS-232 device you are connecting to  
the Model 1050 is a modem or multiplexer, or is wired like one, set the  
DCE/DTE switch to "DTE".  
Made In The USA  
Powered Async. Short  
Range Modem  
3.3 SETTING THE CARRIER CONTROL STRAP (see Note 2)  
The setting of the carrier control strap determines whether carrier  
is “constantly on” or “controlled by RTS”. For “controlled by RTS”  
position the strap on pegs 1 & 2. For “constantly on” position the strap  
on pegs 2 & 3. Figure 2 (below) shows the two possible settings of the  
carrier control strap.  
Power  
RS-232 Interface  
Line  
Figure 3. Rear view of 1050 showing interface connectors  
4.1 TWISTED PAIR WIRING OVERVIEW  
These short range modems are designed to work in pairs. You will  
need one at each end of a 4-wire twisted pair circuit. The pairs must be  
"dry" (unconditioned) metallic wire, 19 - 26 AWG. The smaller gauges  
limit distance somewhat compared with larger gauges. When you have  
completed wiring for your data circuit, the pin connections should be as  
shown below:  
1
2
3
1
2
3
1
2
3
Figure 2 Model 1050 strap settings  
XMT +  
XMT -  
G
RCV -  
RCV +  
RCV+  
RCV -  
G
XMT -  
XMT +  
One Pair  
One Pair  
}
}
NOTE 1: If you are connecting twisted pair to the Model 1050  
using the internal terminal blocks, make the twisted pair  
connection before re-inserting the PC board into the case. See  
Section 4.1.1 for details on twisted pair connection.  
To Shield (Optional)  
NOTE 2: If you are using the Model 1050 in a multipoint  
application, consult Section 4.2 for proper Master and Slave carrier  
control settings.  
4.1.1 TWISTED PAIR CONNECTION USING TERMINAL BLOCKS  
The Model 1050 terminal block is located on the PC board inside  
the unit. To access the PC board, remove the two screws on the back  
panel and slide the PC board out of the case. Connect the bare twisted  
pair wires by first inserting them through the grommet on the back  
panel, then stripping the ends and connecting the individual leads to  
the terminal block. Be sure the end-to-end connections follow the  
diagram above.  
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4.1.2 TWISTED PAIR CONNECTION USING RJ-11  
4.2 WIRING FOR MULTIPOINT CIRCUITS  
If your two-pair cable is terminated in an RJ-11 plug, you may use  
the RJ-11 jack in the back of the Model 1050 to make the connection.  
The RJ-11 jack on a Model 1050 series Short Range Modem is  
prewired for a standard TELCO wiring environment. To be sure you  
have the right wiring, use the diagram below as a guide.  
The Model 1050 supports multi-point applications using either a  
star or daisy chain topology. Both topologies require special wiring, as  
well as specific carrier control strap settings for master and slave units.  
4.2.1 DAISY CHAIN TOPOLOGY  
RJ-11  
SIGNAL  
1 ---------------------GND†  
2 ---------------------RCV-  
3 ---------------------XMT+  
4 ---------------------XMT-  
5 ---------------------RCV+  
6 ---------------------GND†  
Using a daisy chain topology, you may connect as many as 10  
Model 1050s together in a master/slave arrangement. Maximum  
distance between the units will vary based upon the number of drops,  
data rate, wire gauge, etc. Call Patton Technical Support for specific  
distance estimates.  
Figure 3 (below) shows how to wire the two-pair cables properly for  
a Model 1050 daisy chain topology. Note that the ground connection is  
not needed.  
For proper signal crossing between two Model 1050s using RJ-11  
connectors, pin-out the twisted pair cable according to the diagram  
below.  
HOST  
FIRST SLAVE  
OTHER SLAVE(S)  
XMT+  
XMT-  
RCV+  
RCV-  
RCV+  
RCV-  
XMT+  
XMT-  
RCV+  
RCV-  
XMT+  
XMT-  
RJ-11 Cable (4-Wire)  
SIGNAL  
PIN#  
PIN#  
SIGNAL  
GND†  
RCV-  
XMT+  
XMT-  
RCV+  
GND†  
1-----------------------6  
2-----------------------4  
3-----------------------5  
4-----------------------2  
5-----------------------3  
6-----------------------1  
GND†  
XMT-  
RCV+  
RCV-  
XMT+  
GND†  
Figure 3. Model 1060 daisy chain wiring  
In a multipoint topology, you must configure the master Model  
1050's carrier control strap differently than those of the slave Model  
1050(s). Here are the proper carrier control strap settings for a daisy  
chain topology:  
Connection to ground is optional  
Function  
Carrier Control Strap Setting  
1
2
3
4
5
6
Master  
Carrier “Constantly ON” (pegs 2 & 3)  
Slave(s)  
Carrier “Controlled by RTS” (pegs 1 & 2)  
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5.0 OPERATION  
4.2.2 STAR TOPOLOGY  
Once you have configured each Model 1050 properly and  
connected it, simply plug in the AC power adapter to get it running;  
there is no power switch on the Model 1050. You can monitor the  
operation of the Model 1050 using the front panel LED indicators and  
built-in loopback test modes.  
Using a star topology, you may connect several Model 1050s  
together in a master/slave arrangement. Maximum distance between  
the units will vary based upon the number of drops, data rate, wire  
gauge, etc. Call Patton Technical Support for specific distance  
estimates.  
Figure 4 (below) shows how to wire the two-pair cables properly for  
a Model 1050 star topology. Note that the ground connection is not  
needed.  
5.1 LED INDICATORS  
The Model 1050 incorporates three front panel LEDs that show the  
status of the modem:  
HOST  
FIRST SLAVE  
SECOND SLAVE  
RCV+  
1. The loopback test LED glows when the loopback test switch  
has been depressed and is in a test mode.  
XMT+  
RCV+  
2. The tri-state TD and RD indicators blink red and green with data  
activity. Solid red indicates a low RS-232 logic level. Note: RS-232  
devices idle in a low state, so the LED will glow red if the connections  
are correct and the RS-232 device is in an idle state.  
XMT-  
RCV+  
RCV-  
RCV-  
XMT+  
XMT-  
RCV-  
XMT+  
5.2 LOOPBACK TEST MODES  
Select the test modes by depressing the "Loopback Test" switch.  
When in loopback mode, the "Loopback Test" LED will glow red. Two  
tests are possible using this switch: Local Analog Loop (LAL), and  
Remote Analog Loop (RAL).  
XMT-  
Figure 4. Model 1060 star wiring  
In a multipoint topology, you must configure the master Model  
1050's carrier control strap differently than those of the slave Model  
1050(s). Here are the proper carrier control strap settings for a star  
topology:  
5.2.1 LOCAL ANALOG LOOP  
The first test mode is Local Analog Loop (V.54 Loop 3). Any data  
sent to the local Model 1050 in this mode will be echoed (returned)  
back to the user device. For example, characters typed on the  
keyboard of a terminal will appear on the terminal screen (see Figure 3  
on the following page).  
Function  
Carrier Control Strap Setting  
Master  
Carrier “Constantly ON” (pegs 2 & 3)  
Slave(s)  
Carrier “Controlled by RTS” (pegs 1 & 2)  
4.3 RS-232 CONNECTION  
To connect the Model 1050 to a piece of data terminal or data  
communications hardware, use a straight through RS-232 cable. Plug  
the cable directly into the DB-25 port on the rear of the Model 1050.  
The DCE/DTE switches eliminate the need for a crossover cable.  
(continued)  
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APPENDIX A  
5.2.2 REMOTE ANALOG LOOP  
PATTON MODEL 1050 SPECIFICATIONS  
The second test mode is Remote Analog Loop. To enter this  
mode, set one of the Model 1050s (local) in test mode by depressing  
the "Loopback Test" switch. Any characters sent from the remote 1050  
will be returned to it (see Figure 5). If no characters are echoed back,  
check the wiring between the two Model 1050s. Be sure to wire the  
units according to the instructions in Section 4.0 Installation.  
Transmission Format: Asynchronous  
Transmission Line:  
Range:  
19 to 26 AWG twisted pair  
7 miles on 24 AWG twisted pair @ 1200 bps  
EIA RS-232 (CCITT V.24), DB-25 female  
TX+  
TX-  
RX+  
RX-  
Serial Interface:  
RD  
TD  
TD  
RD  
Twisted Pair Interface: Terminal blocks, RJ-11 jack  
RX-  
TX-  
Data Rates:  
Applications:  
Indicators:  
0 - 38,400 bps  
RX+  
TX+  
Point-to-point, Multipoint  
Remote 1060  
In Normal Mode  
Local 1060  
In Normal Mode  
Tri-state for transmit data, receive data, and  
test  
TX+  
TX-  
RX+  
RX-  
RD  
TD  
TD  
RD  
Diagnostics:  
Local Analog Loopback (LAL), Remote  
Analog Loopback (RAL)  
RX-  
TX-  
RX+  
TX+  
Optical Isolation:  
2500V RMS (minimum)  
Local 1060  
In Loopback Mode  
Remote 1060  
In Normal Mode  
Power Supply:  
Wall mount, 9-12VAC, 200ma  
Temperature Range: 0-60°C (32-140°F)  
Figure 5. Loopback Test Modes  
Altitude:  
0-15,000 feet  
Humidity:  
Dimensions:  
Weight:  
5 to 95% noncondensing  
1.58”H x 4.16”W x 3.75”D  
13.2 oz. (without transformer)  
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APPENDIX B  
APPENDIX C  
PATTON MODEL 1050 CABLE RECOMMENDATIONS  
PATTON MODEL 1050 INTERFACE PIN ASSIGNMENT  
All Patton Electronics Company Short Range Modems are tested to  
the distances published in our Catalogs and Specification Sheets on  
twisted-pair cable with the following characteristics:  
RS-232 FEMALE, D-SUB 25 CONNECTOR  
(DCE ORIENTATION)  
Wire Gauge  
Capacitance  
Resistance  
DIRECTION  
STANDARD RS-232C/V.24 “DCE” SETTING  
DIRECTION  
19 AWG(.9mm) 83nF/mi or 15.72 pF/ft.  
22 AWG(.6mm) 83nF/mi or 15.72 pF/ft.  
24 AWG(.5mm) 83nF/mi or 15.72 pF/ft.  
26 AWG(.4mm) 83nF/mi or 15.72 pF/ft.  
.0163/ft.  
.0326/ft.  
.05165/ft.  
.08235/ft.  
1- (FG) Frame Ground  
2- (TD) Transmit Data  
3- (RD) Receive Data  
To 1050  
From 1050  
To 1050  
4- (RTS) Request to Send  
5- (CTS) Clear to Send  
6- (DSR) Data Set Ready  
7- (SG) Signal Ground  
8- (DCD) Data Carrier Detect  
From 1050  
From 1050  
We fully expect that the Short Range Modems will operate on lines  
with specifications different from those tested, but to reduce the  
potential difficulties in the field, one should ensure that the cable being  
used has similar or better characteristics (lower capacitance or lower  
resistance).  
From 1050  
Wire with capacitance of 20pF/ft. or less is suitable for all our Short  
Range Modems however, distances may vary from those published in  
our catalog. Resistance will also affect distance but not functionality.  
Wire should be 26 AWG (.4mm) (or larger (smaller AWG#).  
Patton products are designed to withstand normal environmental  
noise and conditions however, other environmental factors too  
numerous to discuss in this format may affect proper operation of the  
SRM’s.  
DIRECTION  
STANDARD RS-232C/V.24 “DTE” SETTING  
DIRECTION  
1- (FG) Frame Ground  
2- (TD) Transmit Data  
3- (RD) Receive Data  
4- (RTS) Request to Send  
From 1050  
To 1050  
Selection of the proper SRM for an application is critical to  
maintaining Customer Satisfaction and should be taken seriously.  
Certain models are better suited for particular applications and  
environments than others.  
From 1050  
7- (SG) Signal Ground  
Data Term. Ready (DTR) - 20  
From 1050  
8- (DCD) Data Carrier Detect  
To 1050  
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APPENDIX D  
Dear Valued Customer,  
Thank you for purchasing Patton Electronics products! We do  
PATTON MODEL 1050 BLOCK DIAGRAM  
appreciate your business. I trust that you find this user manual helpful.  
We manufacture one of the widest selections of data communications  
products in the world including CSU/DSU's, network termination units,  
powered and self-powered short range modems, fiber optic modems, interface  
converters, baluns, electronic data switches, data-line surge protectors,  
multiplexers, transceivers, hubs, print servers and much more. We produce  
these products at our Gaithersburg, MD, USA, facility, and can custom  
manufacture products for your unique needs.  
We would like to hear from you. Please contact us in any of the  
following ways to tell us how you like this product and how we can meet your  
product needs today and in the future.  
Web:  
(301) 975-1000  
(301) 975-1007  
(301) 869-9293  
Sales E-mail:  
Support E-mail:  
Phone - Sales  
Phone - Support  
Fax:  
Mail:  
Patton Electronics Company  
7622 Rickenbacker Drive  
Gaithersburg, MD 20879 USA  
We are committed to a quality product at a quality price. Patton  
Electronics is BABT and ISO 9001 certified. We meet and exceed the highest  
standards in the industry (CE, UL, etc.).  
It is our business to serve you. If you are not satisfied with any  
aspect of this product or the service provided from Patton Electronics or its  
distributors, please let us know.  
Thank you.  
Burton A.Patton  
Vice President  
P.S. Please tell us where you purchased this product:  
_________________________________________________________  
_________________________________________________________  
_________________________________________________________  
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Copyright © 1997  
Patton Electronics Company  
All Rights Reserved  
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