Patton electronic Network Card 1018RC User Manual

USER  
MANUAL  
MODEL 1018RC  
Powered High Speed  
Short Range Modem:  
Rack Mount Card  
SALES OFFICE  
(301) 975-1000  
Part# 07M1018RC-C  
Doc# 013012UC  
Revised 2/4/97  
TECHNICAL SUPPORT  
(301) 975-1007  
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An ISO-9001  
Certified Company  
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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 arise during  
installation or use of the unit, contact Patton Electronics Technical  
Support: (301) 975-1007.  
This section describes the location and orientation of the Model  
1018RC’s configuration switches and jumpers, and provides detailed  
instructions for all possible settings.  
The Model 1018RC uses a combination of DIP switches and  
jumpers that allow configuration to an extremely wide range of  
applications. Designed around a mid-plane architecture, the Model  
1018RC incorporates both front and rear cards. Configuration of both  
may be necessary. The switches/jumpers are accessible when the  
cards are slid out of the rack chassis. Once configured, the Model  
1018RC is designed to operate transparently, without need for frequent  
re-configuration: just set it and forget it!  
2.1 FEATURES  
• Switch-selectable carrier control  
• Asynchronous operation  
• Selectable data rates from 1200 to 57,600 bps  
• Distances to 2.4 miles  
• Point-to-point operation  
V.54 loopback tests and V.52 compliant BER tests  
• Six easy-to-read LED indicators  
• Transformer isolation  
3.1 FUNCTION CARD CONFIGURATION  
The Model 1018RC front card has two sets of eight switches (S1 &  
S2), which are mounted on the PC board (Figure 1, below). These  
configuration switches allow you to configure the Model 1018RC for a  
wide range of applications. The ON/OFF orientation of the DIP  
switches is shown in figure 2 (below). Jumpers JP1 through JP4 are  
primarily used for factory configuration, and should be left in their  
default positions.  
• Silicon Avalanche Diode surge protection  
• Switchable 120V or 240V power supply  
• Mounts in Patton’s 16-card rack chassis  
2.2 DESCRIPTION  
The Patton Model 1018RC short range modem rack card passes  
two “session” control signals (DTR/DCD), as well as two channel-  
independent flow control signals (RTS/CTS). This capability makes the  
Model 1018 suitable for SLIP (Serial Line Internet Protocol) and PPP  
(Point-to-Point Protocol) applications, as well as other serial  
applications requiring extra controls.  
S1  
JP1  
JP2  
JP3  
JP4  
S2  
The Model 1018RC supports asynchronous data rates from 1.2 to  
57.6 Kbps, and distances to 2.4 miles. The Model 1018RC  
incorporates two V.54 test modes (local analog loop and remote digital  
loop), which can be activated from the front panel via the RS-232  
interface. Additionally, a built-in V.52 BER test generator can output  
511 and 511E bit patterns. Five easy-to-read LED indicators monitor  
power, transmit data, carrier detect, test mode and test pattern. For  
protection against ground loops and transient surges, the Model  
1018RC incorporates both isolation transformers and Silicon Avalanche  
Diode surge suppressors.  
Figure 1. Model 1018RC board, showing location of switches/jumper  
ON  
ON  
The Model 1018RC is designed to mount in Patton’s 2U high 19”  
rack chassis. This 16-card chassis has a switchable 120/240 VAC  
power supply (optional 48 VDC) and mounts cards in a mid-plane  
architecture: The front card can be plugged into different rear cards.  
This means that the Model 1018RC card can have several interface  
options and can be switched with other Patton short haul cards.  
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1
2
3
4
5
6
7
8
OFF  
Figure 2. Close-up of DIP switches showing “ON” and “OFF” positions  
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3.1.1 CONFIGURATION SWITCH PACK “S1”  
S1-3 through S1-6: Not Used  
S1-7 and S1-8: RTS/CTS Delay  
The eight DIP switches on pack S1 set Remote Test Activation and  
RTS/CTS Delay. Descriptions of all possible S1 switch settings,  
including the Patton factory default settings, are found on on pages 4  
and 5.  
The combined settings for switches S1-7 and S1-8 determine the  
amount of delay between the time the Model 1018RC “sees” RTS and  
when it sends CTS. Currently, the Model 1018RC does not have  
optional delay settings. “No Delay” is defined as between 500 nsec and  
1 msec. The switches should remain in the “OFF” position.  
S1 SUMMARY TABLE  
Position  
S1-1  
S1-2  
S1-3  
S1-4  
S1-5  
S1-6  
S1-7  
S1-8  
Function  
DTE Control of LAL  
DTE Control of RDL  
Not Used  
Factory Default  
On Enabled  
On Enabled  
Off  
S1-7  
Off  
S1-8  
Off  
Setting  
0 mS delay  
No other valid settings  
Not Used  
Off  
N/A  
Not Used  
Off  
}
3.1.2 CONFIGURATION SWITCH SET “S2”  
Not Used  
Off  
Off  
The eight DIP switches on pack S2 set Digital Reset, Carrier  
Control, Link Clocking, Async Data Rate and Microprocessor Reset.  
Factory default settings are summarized in Figure 4, below.  
Descriptions of all possible S1 switch settings, including the Patton  
factory default settings, are found on on pages 6 and 7.  
RTS/CTS Delay  
RTS/CTS Delay  
0 mS  
}
Off  
Figure 3. Summary of DIP switch default settings for set S1  
S1-1: DTE Control of LAL  
S2 SUMMARY TABLE  
Position  
S2-1  
S2-2  
S2-3  
S2-4  
S2-5  
S2-6  
S2-7  
S2-8  
Function  
V.54 Disable  
Factory Default  
Off Normal  
The setting for switch S1-7 determines whether the Local Analog  
Loopback test on the Model 1018RC can be activated via pin 18 of the  
RS-232 interface.  
Control of Carrier  
Link Clocking  
On Ctrl by DTR  
On  
S1-1  
On  
Off  
Setting  
Enabled  
Disabled  
Internal  
}
Link Clocking  
On  
Async Data Rate  
Async Data Rate  
Async Data Rate  
Microprocessor Reset  
On  
S1-2: DTE Control of RDL  
57.6 Kbps  
Normal  
On  
On  
Off  
}
The setting for switch S1-7 determines whether the Remote Digital  
Loopback test on the Model 1018RC can be activated via pin 21 of the  
RS-232 interface.  
Figure 4. Summary of DIP switch default settings for S2  
S1-2  
On  
Off  
Setting  
Enabled  
Disabled  
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S2-1: V.54 Disable  
S2-8: Microprocessor Reset  
The setting for switch S2-8 determines whether the Model  
1018RC’s microprocessor is in normal operating mode or “reset” mode.  
This switch is used primarily for factory test purposes, since removing  
the card from the chassis resets the microprocessor automatically.  
The setting for switch S2-1 determines whether the Model  
1018RC’s V.54 diagnostics are disabled or are in normal operating  
mode.  
S2-1  
On  
Off  
Setting  
V.54 Test Disabled  
V.54 Test Enabled (Normal)  
S2-8  
On  
Off  
Setting  
Reset Mode  
Normal Operating Mode  
S2-2: Carrier Control  
3.1.3 CONFIGURATION JUMPERS  
The setting for switch S2-2 determines whether Carrier is  
“Constantly ON” or “Controlled by DTR”.  
Configuration jumpers (JP1 through JP4) on the Model 1018RC  
Function Card are primarily intended for factory configuration of the RS-  
232 interface. We recommended that you do not re-configure these  
jumpers unless instructed to do so by a Patton Technical Support  
Representative.  
S2-2  
On  
Setting  
Controlled by DTR  
Constantly ON  
Off  
3.2 REAR CARD CONFIGURATION  
S2-3 and S2-4: Link Clocking Method  
The Model 1018RC has four rear interface card options: DB-25 &  
RJ-11, DB-25 & RJ-45, RJ-11 & RJ-45 and dual RJ-45 (see figure 5,  
below). Each of these options supports one terminal connection and  
one line connection.  
Switches S1-7 and S1-8 are set in combination to determine the  
synchronous link clocking method for the Model 1018RC. This  
parameter is not user definable, hence there is only one valid setting.  
RJ-45 (8-wire)  
S2-2  
On  
Setting  
Internal  
RJ-11 (6-wire)  
RJ-45 (8-wire)  
S2-1  
On  
RJ-11 (6-wire)  
No other valid settings  
S2-5 through S2-7: Asynchronous Data Rate Setting  
Switches S2-5 through S2-7 are set in combination to determine  
the asynchronous (terminal) data rate for the Model 1018RC.  
S2-5  
Off  
Off  
Off  
Off  
On  
On  
On  
On  
S2-6  
Off  
Off  
On  
On  
Off  
Off  
On  
On  
S2-7  
Off  
On  
Off  
On  
Off  
On  
Off  
On  
Setting  
1.2 Kbps  
2.4 Kbps  
4.8 Kbps  
9.6 Kbps  
19.2 Kbps  
28.8 Kbps  
38.4 Kbps  
57.6 Kbps  
DB-25 F  
DB-25 F  
RJ-45 (8-wire) RJ-45 (8-wire)  
Figure 5. Model 1018RC interface card options  
Each of the four rear card options for the Model 1018RC has a  
distinct model number. The four options and their model numbers are  
shown on the following page.  
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Interface Combination  
Model Number  
Figure 8 (below) provides an overview of interface jumper functions  
for the rear interface cards. Following this overview is a detailed  
description of each jumper’s function.  
DB-25 & RJ-11  
DB-25 & RJ-45  
RJ-11 & RJ-45  
Dual RJ-45  
1000RCM12511  
1000RCM12545  
1000RCM1D11  
1000RCM1D45  
INTERFACE CARD STRAP SUMMARY TABLE #1  
Strap  
JB2  
Function  
Position 1&2  
Connected  
Connected  
Connected  
Position 2&3  
Open*  
Prior to installation, you will need to examine the rear card you  
have selected and make sure it is properly configured for your  
application. Each rear card is configured by setting straps located on  
the PC board. Section 3.5.1 describes the strap locations and possible  
settings for each rear card.  
Line Shield & FRGND  
DTE Shield (Pin1) & FRGND  
FRGND & SGND  
JB3  
Open*  
JB4  
Open*  
Figure 8. Summary of strap settings, * indicates factory default  
3.2.1 REAR CARD JUMPER SETTINGS  
Line Shield & FRGND (JB2)  
This jumper affects the line interface. In the connected (closed)  
position, it links RJ-11 pins 1 & 6, or RJ-45 pins 2 & 7 to frame ground.  
These pins can be used as connections for the twisted pair cable shield.  
In the open (disconnected) position, pins 1 & 6 (or 2 & 7) remain  
connected to each other, but are “lifted” from the frame ground.  
Figure 6 (below) shows jumper locations for the four rear card  
options. These jumpers determine various grounding characteristics for  
the RS-232 and twisted pair lines.  
JB2  
(peg 1 on left)  
JB2  
JB3  
(peg 1 on top)  
Position 1&2 = Line Shield and FRGND Connected  
Position 2&3 = Line Shield and FRGND Not Connected  
DTE Shield & FRGND (JB3)  
In the connected position, this jumper links DB-25 pin 1 & frame  
ground. In the open position, pin 1 is “lifted” from frame ground.  
JB4  
(peg 1 on left)  
JB3  
Position 1&2 = DTE Shield (DB-25 Pin 1)  
and FRGND Connected  
Figure 6. Rear card jumper locations  
Position 2&3 = DTE Shield (DB-25 Pin 1)  
and FRGND Not Connected  
Figure 7 (below) shows the orientation of the rear interface card  
jumpers. The jumper can either be on pegs 1 & 2, or on pegs 2 & 3.  
SGND & FRGND (JB4)  
In the connected position, this jumper links DB-25 pin 7 Signal  
Ground) and frame ground. In the open position, pin 1 is “lifted” from  
frame ground.  
JB4  
Position 1&2 = SGND (DB-25 pin 7)  
and FRGND Connected  
Position 2&3 = SGND (DB-25 pin 7)  
and FRGND Not Connected  
1
2
3
1
2
3
1
2
3
Figure 7. Orientation of interface card straps  
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4.0 INSTALLATION  
Switching the Power Supply On and Off  
This section describes the functions of the Model 1000R16 rack  
chassis, tells how to install front and rear Model 1018RC cards into the  
chassis, and provides diagrams for wiring the interface connections  
correctly.  
The power supply on/off switch is located on the front panel. When  
plugged in and switched on, a red front panel LED will glow. Since the  
Model 1000R16 is a “hot swappable” rack, it is not necessary for any  
cards to be installed before switching on the power supply. The  
power supply may be switched off at any time without harming the  
installed cards.  
4.1 THE MODEL 1000R16 RACK CHASSIS  
The Model 1000R16 Rack Chassis (Figure 9) has sixteen short  
range modem card slots, plus its own power supply. Measuring only  
3.5” high, the Model 1000R16 is designed to occupy only 2U in a 19”  
rack. Sturdy front handles allow the Model 1000R16 to be extracted  
and transported conveniently.  
4.2 INSTALLING THE MODEL 1018RC INTO THE CHASSIS  
The Model 1018RC is comprised of a front card 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 1018RC 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 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.  
Figure 9. Model 1000R16 Rack Chassis with power supply  
4.1.1 THE RACK POWER SUPPLY  
5. Secure the front card using the thumb screws.  
The power supply included in the Model 1000R16 rack uses the  
same mid-plane architecture as the modem cards. 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.  
Note: Since the Model 1018RC16P chassis allows “hot swapping”  
of cards, it is not necessary to power down the rack when  
you install or remove a Model 1018RC.  
4.3 WIRING THE MODEL 1018RC  
Each of the rear interface cards compatible with the Model 1018RC  
has one terminal interface port and one 4-wire (twisted pair) port.  
These cards provide a female DB-25 for the terminal interface  
connection.  
WARNING! There are no user-serviceable parts in the power  
supply section of the Model 1018RC. Voltage setting changes and  
fuse replacement should only be performed by qualified service  
personnel. Contact Patton Electronics Technical support at  
more information.  
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4.3.1 TERMINAL INTERFACE CONNECTION  
Point-to-Point Twisted Pair Connection  
The RS-232 versions of the Model 1018RC use a DB-25 female to  
connect the terminal interface to your computing hardware. It is pinned  
according to the RS-232C/V.24 and EIA-530 interface standards. For  
specific interface pin-outs, please refer to the diagram in Appendix D of  
this manual.  
The 6-position RJ-11 and 8-position RJ-45 jack options for the  
Model 1018RC are prewired for a standard TELCO wiring environment.  
Connection of a 2-wire or 4-wire twisted pair circuit between two or  
more Model 1018RCs requires a crossover cable as shown in the  
following diagrams.  
RJ-11 Cable  
The EIA-561 versions of the Model 1018RC use a 10 pin RJ-45 to  
connect the terminal interface to your computing hardware. It is pinned  
according to the EIA-561 DCE interface standard. For specific interface  
pin-outs, please refer to the diagram in Appendix D of this manual.  
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†  
Notice! Any terminal cable connected to the Patton Model  
1018RC must be shielded cable, and the outer shield must be  
360 degree bonded–at both ends–to a metal or metalized  
backshell.  
4.3.2 TWISTED PAIR CONNECTION  
RJ-45 Cable  
The Model 1018RC operates over two twisted pair. In all  
applications, the twisted pair wire must be 26 AWG or thicker,  
unconditioned, dry, metallic wire. Both shielded and unshielded wire  
yield favorable results. Note: The Model 1018RC can only  
communicate in a closed data circuit, and is compatible with the  
following Patton short hauls: Model 1018RC, Model 1018, Model  
1080A, Model 1080ARC. Dial-up analog circuits, such as those used  
with a standard Hayes-type modem, are not acceptable. For further  
information about acceptable wire grades, please refer to the diagrams  
in Appendix B.  
SIGNAL  
PIN#  
PIN#  
SIGNAL  
GND†  
RCV-  
XMT+  
XMT-  
RCV+  
GND†  
2-----------------------7  
3-----------------------5  
4-----------------------6  
5-----------------------3  
6-----------------------4  
7-----------------------2  
GND†  
XMT-  
RCV+  
RCV-  
XMT+  
GND†  
Connection to ground is optional  
The Model 1018RC is not sensitive to polarity  
Notice! Any modular twisted pair cable connected to the  
Model 1018RC must be shielded cable, and the outer shield must  
be properly terminated to a shielded modular plug on both ends  
of the cable.  
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5.0 OPERATION  
4. If the BER test indicates no errors are present, move the V.52  
toggle switch to the right, thus activating the “511/E” test with  
periodic errors. If the test is working properly, the red “Error”  
LED will glow. A successful “511/E” test will confirm that the  
loop is in place, and that the Model 1018RC’s built-in “511”  
generator and detector are working properly.  
Once you have configured each Model 1018RC and connected the  
cables, you are ready to operate the units. Section 5.0 describes the  
power-up procedure and the built-in V.54 and V.52 test modes.  
5.1 POWER-UP  
5. If the BER test indicates that errors are present, check to see  
that the RS-232 cable connecting the DTE to the Model  
1018RC is wired straight through, and is plugged in properly.  
Also, ensure that the Model 1018RC is configured properly.  
Then re-check your DTE equipment. If you still have errors,  
call Patton Technical Support at (301) 975-1007.  
There is no power switch on the Model 1018RC: Power is  
automatically applied to the Model 1018RC when its card-edge  
connector makes contact with the chassis’ mid-plane socket, or when  
the chassis’ power supply is turned on. Note: The Model 1018RC is a  
“hot swappable” card—it will not be damaged by plugging it in or  
removing it while the rack is powered up.  
5.2.2 REMOTE DIGITAL LOOPBACK (RDL)  
5.2 TEST MODES  
The Remote Digital Loopback (RDL) test checks the performance of  
both the local and remote Model 1018RCs, and the communication link  
between them. Any characters sent to the remote 1018RC in this test  
mode will be returned back to the originating device. For example,  
characters typed on the keyboard of the local terminal will appear on  
the local terminal screen after having been passed to the remote Model  
1018RC and looped back. To perform an RDL test, follow these steps:  
The Model 1018RC offers two V.54 test modes and two V.52 test  
modes to evaluate the condition of the modems and the communication  
link. Both sets of tests can be activated physically from the front panel.  
The V.54 test can also be activated from the RS-232 interface.  
5.2.1 LOCAL ANALOG LOOPBACK (LAL)  
The Local Analog Loopback (LAL) test checks the operation of the  
local Model 1018RC, and is performed separately on each unit. Any  
data sent to the local Model 1018RC in this test 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. To  
perform a LAL test, follow these steps:  
1. Activate RDL. This may be done in two ways: First, by  
moving the upper front panel toggle switch LEFT to “Remote”.  
Second, by raising pin 21 on the RS-232 interface.  
2. Verify that the DTE equipment on the local end is operating  
properly and can be used for a test.  
1. Activate LAL. This may be done in one of two ways: First, by  
moving the upper front panel toggle switch RIGHT to “Analog”.  
Second, by raising pin 18 on the RS-232 interface (note: be  
sure DIP switch SW1-6 is enabled). Once LAL is activated,  
the Model 1018RC transmit output is connected to its own  
receiver. The Test” LED should be lit.  
3. Locate the lower of the two toggle switches on the front panel  
of the 1018RC and move it to the left. This will activate the  
V.52 BER test mode and inject a “511” test pattern into the  
remote loop. If any errors are present in the loop, the red  
“Error” LED will blink sporadically.  
4. If the BER test indicates no errors are present, move the  
V.52 toggle switch to the right, thus activating the “511/E” test  
with periodic errors. If the test is working properly, the red  
“Error” LED will glow. A successful “511/E” test will confirm  
that the loop is in place, and that the Model 1018RC’s built-in  
“511” generator and detector are working properly.  
2. Verify that the data terminal equipment is operating properly  
and can be used for a test.  
3. Locate the lower of the two toggle switches on the front panel  
of the Model 1018RC and move it to the left. This will activate  
the V.52 BER test mode and inject a “511” test pattern into the  
local loop. If any errors are present in the loop, the red “Error”  
LED will blink sporadically.  
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APPENDIX A  
5. If the remote BER test indicates that errors are present, and  
the local analog loopback/BER tests showed that both Model  
1018RCs were functioning properly, this suggests a problem  
with the twisted pair communication line connecting the two  
modems. A common problem is improper crossing of the  
pairs. Also, verify that the modular connections are pinned  
properly, and the twisted pair line has continuity. If you still  
have errors, call Technical Support at (301) 975-1007.  
PATTON MODEL 1018 RC SPECIFICATIONS  
Transmission Format:  
Asynchronous to terminals; synchronous  
between units  
Connection to Model 1000R16 rack  
chassis via male card edge  
DB-25 female (RS-232), RJ-11 or RJ-45  
(line)  
Internal Interface:  
External Interface:  
Transmission Line:  
5.2.3 USING THE V.52 BER TEST INDEPENDENTLY  
4-wire unshielded twisted pair (UTP), 19-24  
AWG  
The Model 1018RC's V.52 BER test can be used independent of  
the V.54 loopback tests. This requires two operators: one to initiate  
and monitor the test at both the local and the remote Model 1018RC.  
To use the V.52 BER test by itself, both operators should  
simultaneously follow these steps:  
Asynchronous Data  
Rates:  
Link Clocking / Sync  
Data Rate:  
RTS/CTS Delay:  
Controls:  
1.2, 2.4, 4.8, 9.6, 19.2, 28.8,  
38.4 and 57.6 Kbps (switch selectable)  
Internal / 76.8 Kbps (fixed)  
No delay  
Carrier constantly “ON” or “controlled by  
DTR”  
Bi-color LED indicators for TD, RD, RTS &  
DCD; single LED indicators for Test and  
Error  
V.52 compliant bit error rate pattern; V.54  
compliant— Local Analog Loopback and  
Remote Digital Loopback, activated by front  
panel switch or via terminal interface  
1. Locate the lower of the two toggle switches on the front panel  
of the Model 1018RC and move it to the left. This will activate  
the V.52 BER test mode and transmit a “511” test pattern to  
the other unit. If any errors are present, the receiving  
modem’s red “Error” LED will blink sporadically. Note: For  
this independent test to function, the “511” switch on both  
Model 1018RCs must be turned on.  
Indicators:  
Diagnostics:  
2. If the test indicates no errors are present, move the V.52  
toggle switch to the right, thus activating the “511/E” test with  
errors present. If the test is working properly, the receiving  
modem’s red “Error” LED will glow. A successful “511/E” test  
will confirm that the link is in place, and that the Model  
1018RC’s built-in “511” generator and detector are working  
properly.  
Transformer Isolation: 1500 V RMS  
Surge Protection:  
Power Supply:  
Silicon Avalanche Diodes  
Rack-mount power supply is switchable  
between 120V and 240V AC; chassis  
supplies 10V AC to the Model 1018RC,  
typical consumption is 700mW  
0-50°C / 32-122°F  
Temperature:  
Humidity:  
5-95%, non-condensing  
Dimensions:  
0.95”w x 3.1”h x 5.4”l  
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APPENDIX B  
APPENDIX C  
PATTON MODEL 1018RC CABLE RECOMMENDATIONS  
PATTON MODEL 1018RC  
FACTORY REPLACEMENT PARTS  
The Patton Model 1018RC operates at frequencies of 40kHz or less  
and has been performance tested by Patton technicians using twisted-  
pair cable with the following characteristics:  
The Patton Model 1018RC rack system features interchangeable  
rear cards, power cords/fuses for international various operating  
environments and other user-replaceable parts. Model numbers,  
descriptions and prices for these parts are listed below.  
Wire Gauge  
Capacitance  
Resistance  
19 AWG  
22 AWG  
24 AWG  
83nf/mi or 15.72 pf/ft.  
83nf/mi or 15.72 pf/ft.  
83nf/mi or 15.72 pf/ft.  
.0163 Ohms/ft.  
.0326 Ohms/ft.  
.05165 Ohms/ft.  
Patton Model #  
Description  
1000RPEM..........................120/240V Rear Power Entry Module  
1000RPSM-2.......................120/240V Front Power Supply Module  
1000RPEM-DC ...................DC Rear Power Entry Module  
1000RPSM-48A ..................48V Front Power Supply Module  
1000RPEM-V ......................120/240V CE Compliant Rear Power  
Entry Module  
To gain optimum performance from the Model 1018RC, please keep  
the following guidelines in mind:  
Always use twisted pair wire—this is not an option.  
1000RPSM-V ......................120/240V CE Compliant Front Power  
Supply Module  
• Use twisted pair wire with a capacitance of 20pf/ft or less.  
0805US ...............................American Power Cord  
0805EUR.............................European Power Cord CEE 7  
0805UK ...............................United Kingdom Power Cord  
0805AUS.............................Australia/New Zealand Power Cord  
0805DEN.............................Denmark Power Cord  
0805FR ...............................France/Belgium Power Cord  
0805IN.................................India Power Cord  
• Avoid twisted pair wire thinner than 26 AWG (i.e. avoid higher  
AWG numbers than 26)  
• Use of twisted pair with a resistance greater than the above  
specifications may cause a reduction in maximum distance  
obtainable. Functionality should not be affected.  
0805IS.................................Israel Power Cord  
• Environmental factors too numerous to mention can affect the  
maximum distances obtainable at a particular site. Use “maximum  
distance” figures as a general guideline only.  
0805JAP..............................Japan Power Cord  
0805SW ..............................Switzerland Power Cord  
0516FPB1 ...........................Single Width Blank Front Panel  
0516FPB4 ...........................4-Wide Blank Front Panel  
0516RPB1...........................Single Width Blank Rear Panel  
0516RPB4...........................4-Wide Blank Rear Panel  
056S1..................................Set of 16 #4 pan head screws/washers  
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APPENDIX D  
Dear Valued Customer,  
Thank you for purchasing Patton Electronics products! We do  
PATTON MODEL 1018RC  
appreciate your business. I trust that you find this user manual helpful.  
INTERFACE STANDARDS  
DIRECTION  
STANDARD RS-232C/V.24 “DCE” SETTING  
DIRECTION  
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.  
1- (FG) Frame Ground  
2- (TD) Transmit Data  
3- (RD) Receive Data  
4- (RTS) Request to Send  
To 1018RC  
From 1018RC  
To 1018RC  
5- (CTS) Clear to Send  
Analog Loop - 18  
From 1018RC  
From 1018RC  
To 1018RC  
6- (DSR) Data Set Ready  
7- (SG) Signal Ground  
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.  
8- (DCD) Data Carrier Detect  
From 1018RC  
To 1018RC  
To 1018RC  
Data Term. Ready (DTR) - 20  
Digital Loop - 21  
Web:  
(301) 975-1000  
(301) 975-1007  
(301) 869-9293  
From 1018RC  
Test Mode - 25  
Sales E-mail:  
Support E-mail:  
Phone - Sales  
Phone - Support  
Fax:  
Mail:  
Patton Electronics Company  
7622 Rickenbacker Drive  
Gaithersburg, MD 20879 USA  
PATTON MODULAR INTERFACE - 10 Wire RJ-45  
Contact Number  
Circuit  
Description  
1
2
N/A  
Not Used  
DSR  
125  
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.).  
3
109  
Received Line Signal Indicator (CD)  
DTE Ready (DTR)  
4
108 / 2  
102  
5
Signal Common  
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.  
6
104  
Received Data  
7
103  
Transmitted Data  
8
106  
Clear to Send  
Thank you.  
9
105 / 133  
N/A  
Request to Send / Ready for Receiving  
Not Used  
10  
Burton A.Patton  
Vice President  
Pins 2-9 conform to the EIA/TIA-561 eight position non-synchronous interface standard.  
P.S. Please tell us where you purchased this product:  
Copyright ©  
Patton Electronics Company  
All Rights Reserve  
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