ADTRAN Network Card 4106 Plan A User Manual

TRACER 4106/4206  
System Manual  
12804106L2A  
TRACER 4106 System (Plan A)  
TRACER 4106 System (Plan B)  
TRACER 4206 System (Plan A)  
TRACER 4206 System (Plan B)  
12804106L2B  
12804206L2A  
12804206L2B  
612804206L2-1A  
January 2004  
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TRACER 4106/4206 System Manual  
Revision History  
Revision History  
Document  
Revision  
Date  
Description of Changes  
Initial release of manual.  
A
November 2003  
Notes provide additional useful information.  
Cautions signify information that could prevent service interruption.  
Warnings provide information that could prevent damage to the equipment or  
endangerment to human life.  
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Safety Instructions  
TRACER 4106/4206 System Manual  
Safety Instructions  
When using your telephone equipment, please follow these basic safety precautions to reduce the risk of  
fire, electrical shock, or personal injury:  
1. Do not use this product near water, such as a bathtub, wash bowl, kitchen sink, laundry tub, in a  
wet basement, or near a swimming pool.  
2. Avoid using a telephone (other than a cordless-type) during an electrical storm. There is a remote  
risk of shock from lightning.  
3. Do not use the telephone to report a gas leak in the vicinity of the leak.  
4. Use only the power cord, power supply, and/or batteries indicated in the manual. Do not dispose of  
batteries in a fire. They may explode. Check with local codes for special disposal instructions.  
Save These Important Safety Instructions  
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TRACER 4106/4206 System Manual  
FCC-Required Information  
FCC-Required Information  
Federal Communications Commission Radio Frequency Interference Statement  
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant  
to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful  
interference when the equipment is operated in a commercial environment. This equipment generates,  
uses, and can radiate radio frequency energy and, if not installed and used in accordance with the  
instruction manual, may cause harmful interference to radio frequencies. Operation of this equipment in a  
residential area is likely to cause harmful interference in which case the user will be required to correct the  
interference at his own expense.  
Shielded cables must be used with this unit to ensure compliance with Class A FCC limits.  
Changes or modifications to this unit not expressly approved by the party responsible  
for compliance could void the users authority to operate the equipment.  
Radio Frequency Interface Statement  
This equipment has been tested and found to comply with the limits for an intentional radiator, pursuant to  
Part 15, Subpart C of the FCC Rules. This equipment generates, uses, and can radiate radio frequency  
energy. If not installed and used in accordance with the instructions, it may cause interference to radio  
communications.  
The limits are designed to provide reasonable protection against such interference in a residential situation.  
However, there is no guarantee that interference will not occur in a particular installation. If this equipment  
does cause interference to radio or television reception, which can be determined by turning the equipment  
on and off, the user is encouraged to try to correct the interference by one or more of the following  
measures:  
Reorient or relocate the receiving antenna of the affected radio or television.  
Increase the separation between the equipment and the affected receiver.  
Connect the equipment and the affected receiver to power outlets on separate circuits.  
Consult the dealer or an experienced radio/TV technician for help.  
Changes or modifications not expressly approved by ADTRAN could void the user’s  
authority to operate the equipment.  
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FCC-Required Information  
TRACER 4106/4206 System Manual  
FCC Output Power Restrictions  
The FCC does not require licensing to implement this device. License-free operation in the industrial,  
scientific, and medical band is documented in FCC Rules Part 15.247. It is the responsibility of the  
individuals designing and implementing the radio system to assure compliance with any pertinent FCC  
Rules and Regulations. This device must be professionally installed.  
Exposure to Radio Frequency Fields  
The TRACER 4106 is designed to operate at 2.4 GHz with 100 mW maximum transmit power. The  
TRACER 4206 is designed to operate at 5.8 GHz with 100 mW maximum transmit power.  
This level of RF energy is below the Maximum Permissible Exposure (MPE) levels specified in FCC OET  
65:97-01. The installation of high gain antenna equipment in the system configuration may create the  
opportunity for exposure to levels higher than recommended for the general population at a distance less  
than 15 feet (4.6 meter) from the center of the antenna. The following precautions must be taken during  
installation of this equipment:  
Verify the antenna installation meets all regulations specified in the National Electric  
Code (NEC) Article 810.  
The installed antenna must not be located in a manner that allows exposure of the general population to  
the direct beam path of the antenna at a distance less than 15 feet (4.6 meters). Installation on towers,  
masts, or rooftops not accessible to the general population is recommended; or  
Mount the antenna in a manner that prevents any personnel from entering the area within 15 feet (4.6  
meter) from the front of the antenna.  
It is recommended that the installer place radio frequency hazard warnings signs on the barrier that  
prevents access to the antenna.  
Prior to installing the antenna to the TRACER 4106/4206 output, make sure the power is adjusted to the  
settings specified in section 2 of this manual.  
During antenna installation, be sure that power to the TRACER equipment is turned off in order to  
prevent any energy presence on the coaxial connector.  
During installation and alignment of the antenna, do not stand in front of the antenna assembly.  
During installation and alignment of the antenna, do not handle or touch the front of the antenna.  
These simple precautions must be taken to prevent general population and installation personnel from  
exposure to RF energy in excess of specified MPE levels.  
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TRACER 4106/4206 System Manual  
Warranty and Customer Service  
Warranty and Customer Service  
ADTRAN will repair and return this product within the warranty period if it does not meet its published  
Customer Service, Product Support Information, and Training  
ADTRAN will repair and return this product within the warranty period if it does not meet its published  
A return material authorization (RMA) is required prior to returning equipment to ADTRAN. For service,  
RMA requests, training, or more information, use the contact information given below.  
Repair and Return  
If you determine that a repair is needed, please contact our Customer and Product Service (CaPS)  
department to have an RMA number issued. CaPS should also be contacted to obtain information  
regarding equipment currently in house or possible fees associated with repair.  
CaPS Department  
(256) 963-8722  
Identify the RMA number clearly on the package (below address), and return to the following address:  
ADTRAN Customer and Product Service  
901 Explorer Blvd. (East Tower)  
Huntsville, Alabama 35806  
RMA # _____________  
Pre-Sales Inquiries and Applications Support  
Your reseller should serve as the first point of contact for support. If additional pre-sales support is needed,  
the ADTRAN Support web site provides a variety of support services such as a searchable knowledge  
base, latest product documentation, application briefs, case studies, and a link to submit a question to an  
Applications Engineer. All of this, and more, is available at:  
When needed, further pre-sales assistance is available by calling our Applications Engineering  
Department.  
Applications Engineering (800) 615-1176  
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Customer Service, Product Support Information, and Training  
TRACER 4106/4206 System Manual  
Post-Sale Support  
Your reseller should serve as the first point of contact for support. If additional support is needed, the  
ADTRAN Support web site provides a variety of support services such as a searchable knowledge base,  
updated firmware releases, latest product documentation, service request ticket generation and  
trouble-shooting tools. All of this, and more, is available at:  
When needed, further post-sales assistance is available by calling our Technical Support Center. Please  
have your unit serial number available when you call.  
Technical Support (888) 4ADTRAN  
Installation and Maintenance Support  
The ADTRAN Custom Extended Services (ACES) program offers multiple types and levels of installation  
and maintenance services which allow you to choose the kind of assistance you need. This support is  
available at:  
For questions, call the ACES Help Desk.  
ACES Help Desk (888) 874-ACES (2237)  
Training  
The Enterprise Network (EN) Technical Training Department offers training on our most popular products.  
These courses include overviews on product features and functions while covering applications of  
ADTRAN's product lines. ADTRAN provides a variety of training options, including customized training  
and courses taught at our facilities or at your site. For more information about training, please contact your  
Territory Manager or the Enterprise Training Coordinator.  
Training Phone (800) 615-1176, ext. 7500  
Training Fax  
(256) 963-6700  
Training Email  
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Table of Contents  
This section of ADTRAN’s TRACER 4106/4206 System Manual is designed for use by net-  
4106/4206.  
Explains the basics of analyzing a wireless microwave link or path. The significant parameters  
are defined, and several recommendations are offered.  
Provides information to assist network designers with incorporating the TRACER 4106/4206  
system into their networks.  
Provides shipment contents list, grounding instructions, mounting options, and specifics of sup-  
plying power to the unit.  
Provides detailed descriptions of all menu options and configuration parameters available for  
the TRACER 4106/4206.  
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Table of Contents  
TRACER 4106/4206 System Manual  
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SYSTEM DESCRIPTION  
This section of ADTRANs TRACER 4106/4206 System Manual is designed for use by network engineers,  
planners, and designers for overview information about the TRACER 4106/4206.  
It contains general information and describes physical and operational concepts, network relationships,  
provisioning, testing, alarm status, and system monitoring. This section should be used in conjunction with  
Section 3, Engineering Guidelines, of the system manual.  
CONTENTS  
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Section 1 System Description  
TRACER 4106/4206 System Manual  
1. SYSTEM OVERVIEW  
The ADTRAN TRACER® 4106 and 4206 wireless systems provide four independent T1 circuits over a  
wireless link for up to 30 miles (line-of-sight path required). As authorized under Part 15.247 of the FCC  
Rules, the TRACER 4106 and 4206 operate license-free in the 2.4 GHz and 5.8 GHz Industrial, Scientific,  
and Medical (ISM) bands, respectively. These bands require no frequency coordination or licensing of end  
users.  
For configuration and testing, the TRACER 4106/4206 provides the capability to control the remote sys-  
tem through a separate maintenance channel. The TRACER 4106/4206 has several built-in test capabilities  
including remote loopback. Complete configuration and performance data is available through menus  
accessed using a standard RS-232 terminal interface.  
2. FEATURES AND BENEFITS  
The following is a brief list of the TRACER 4106/4206 features and benefits:  
Configuration and Management  
Easy to use VT100 control port (RS-232 interface) for configuration and monitoring  
Remote configuration of both ends of the wireless link, from each end of the link  
Operational  
Four independent transparent T1 transmission paths, over digital microwave link  
No license required per FCC Rules Part 15.247  
Frequency: 2.400 to 2.4835 GHz (TRACER 4106) and 5.725 to 5.850 GHz (TRACER 4206)  
Point-to-point, up to 30 miles  
1-U high unit for easy rack-mounting  
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MICROWAVE PATH ENGINEERING BASICS  
Explains the basics of analyzing a wireless microwave link or path. The significant parameters are defined,  
and several recommendations are offered.  
CONTENTS  
Transmitted Power (P ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
T
Path Loss (L ). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19  
P
FIGURES  
TABLES  
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Section 2 Microwave Path Engineering Basics  
TRACER 4106/4206 System Manual  
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TRACER 4106/4206 System Manual  
Section 2 Microwave Path Engineering Basics  
1. LINE-OF-SIGHT  
The TRACER 4106 and 4206 systems are designed for operation in the license-free 2.400 to 2.4835 GHz  
and 5.725 GHz to 5.850 GHz industrial, scientific and medical (ISM) bands, respectively. Radio wave  
propagation in these bands exhibit microwave characteristics which are ideally suited for point-to-point,  
line-of-sight communications. Line-of-Sight requires that the transmitting antenna and receiving antenna  
are able to “see” each other, and that the straight-line path between the two antennas is free of obstructions,  
such as buildings, trees, mountains, and, in longer paths, even the curvature of the earth. In addition, for  
maximum signal strength the area around the visual line-of-sight where microwave signals reflect (Fresnel  
zone) must also be free of obstructions. Fresnel zones are discussed in more detail on page 22.  
Terminology  
Wireless communication from a single site to another individual  
Point-to-Point  
site. Contrast with point-to-multipoint.  
An unobstructed, direct path exists between the transmitting and  
the receiving antennas.  
Line-of-Sight  
2. DECIBELS  
Understanding the decibel (dB) format is key when discussing microwave path engineering because the  
received signal power is often expressed in decibel format. In general, any quantity can be expressed in  
decibels. If the quantity x is a power level (in Watts), the decibel equivalent is defined as  
(dB)  
x
= 10 log (x)  
10  
dB  
If the quantity x is referenced to a milliwatt (mW), then the decibel-milliwatt (dBm) is used instead of a  
generic decibel.  
x
(dBm)  
------------  
x
= 10 log  
dBm  
10  
1mW  
Using the decibel format simplifies power calculations by reducing multiplication and division operations  
into addition and subtraction operations.  
3. CALCULATING THE FADE MARGIN  
It is imperative to determine if the proposed microwave path is suitable (at a minimum) for  
ideal, nondistorted signals before attempting installation.  
The fade margin (F ) is a value in decibels (dB) that represents the amount of signal reduction that can be  
tolerated before the link exceeds the specified bit error rate (BER). Fade margin is simply the difference  
between the available signal power at the receiver (PR ) and the receiver sensitivity (Psens ).  
F = P P  
= PT + GT + GR - L - LP - Psens  
(dB)  
R
sens  
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Section 2 Microwave Path Engineering Basics  
TRACER 4106/4206 System Manual  
Higher levels of fade margin indicate stronger protection against signal fading and a more reliable link. For  
most applications, 20 to 30 dB of fade margin should ensure a reliable link.  
The following sections further discuss the necessary power calculations and their components.  
4. RECEIVER POWER  
The viability of a particular microwave path is determined by the power of the transmitted microwave  
signal, the transmit and receive antenna gain, distance, and accumulated system losses (such as RF coaxial  
cable losses and path loss).  
The equation relating received signal power to the other microwave parameters is  
2
P G G λ  
T T R  
(Watts, W)  
P
= ------------------------------  
R
2 2  
(4π) d L  
or (in decibel notation)  
(decibels referenced to a milliwatt, dBm)  
PR = PT + GT + GR - L - LP  
where the variables in the equations are defined as  
PR  
PT  
GT  
GR  
received power (dBm)  
transmitted power (adjustable up to 20 dBm maximum)  
transmit antenna gain (decibels referenced to an isotropic source – dBi)  
receive antenna gain (dBi)  
λ
d
carrier wavelength (meters)  
path distance (meters)  
L
LP  
other losses (RF coaxial cable, etc. – dB)  
path loss (dB)  
When using decibel notation, all quantities must be individually converted to decibels  
prior to performing addition and subtraction.  
Figure 1 on page 17 illustrates a wireless link configuration containing all the parameters necessary for the  
power budget analysis.  
16  
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TRACER 4106/4206 System Manual  
Section 2 Microwave Path Engineering Basics  
λ
GT  
GR  
d, LP  
L
L
PT  
PR  
Figure 1. Example Microwave Path with Parameters  
The following sections further discuss the power budget analysis and its components.  
Antenna Gain  
Actual transmit and receive antenna gain values depend strictly upon the physical characteristics of the  
antennas installed for each link. In other words, the size of the dish determines the antenna gain. Using a  
parabolic dish antenna results in the best performance. Antenna gains are specified in terms of decibels of  
gain referenced to an isotropic source (dBi). An isotropic source is a hypothetical antenna having equal  
radiation in all directions. Typical antenna gains are listed in Table 1; however, dish manufacturers can  
provide gains for specific types of antennas.  
Table 1. Antenna Gain for Given Dish Diameters  
Dish Diameter  
(in feet)  
Gain at 2.4 GHz Gain at 5.8 GHz  
(in dBi)  
(in dBi)  
2
4
21  
28.5  
27  
34.2  
6
31  
37.5  
8
33  
40.7  
10  
12  
35  
42.5  
37  
44.2  
Transmitted Power (PT)  
The FCC specifies the maximum transmitter power that may be used for antennae of a given gain. FCC  
Rules Part 15, Subpart 247 allow for a maximum power of 1 Watt (30 dBm) into antennae of a gain less  
than or equal to 6 dBi. At 2.4 GHz (TRACER 4106), the 1-watt maximum transmitter power must be  
reduced by 1 dB for every 3 dB of antenna gain over 6 dBi. Since the TRACER 4106 maximum transmit  
power is 100 milliwatts, only antennas with gains above 36 dBi (12-foot diameter parabolic dishes) require  
any reduction in transmit power. For the 5.8 GHz band (TRACER 4206), there is no reduction in  
transmitter output power required for antenna gains greater than 6 dBi.  
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Section 2 Microwave Path Engineering Basics  
TRACER 4106/4206 System Manual  
Carrier Wavelength (λ)  
The carrier wavelength is the physical wavelength of the main RF carrier being used for communication,  
and is usually approximated at the center frequency of the band (which is 2441.75 MHz for the  
TRACER 4106 and 5787.5 MHz for the TRACER 4206). The carrier wavelength calculations follow:  
λ = c / f (meters)  
where  
c = speed of light (in meters)  
f = frequency (in Hz)  
resulting in the following carrier wavelength (at 5787.5 MHz):  
λ = 3.00 x 10¯8 / 5787.5 x 10 5  
= 0.0518 m or 5.18 cm  
Path Distance (d)  
The path distance is simply the physical distance between the transmit and receive antennas. For the  
TRACER 4106/4206, these distances can range up to 30 miles.  
System Losses (L)  
System losses are defined by RF coaxial cable loss, connector losses, and losses added from any additional  
lightning protection devices for the power budget analysis. Coaxial cable is required to attach the  
TRACER 4106/4206 to the antenna. The length of the cable varies from a few feet to hundreds of feet,  
depending upon your application and the proximity of the TRACER 4106/4206 to the antenna. Various  
grades of coaxial cable will work sufficiently well for connecting the TRACER 4106/4206 unit to the  
antenna. A low-loss coaxial cable will minimize cable losses.  
One end of the coaxial cable requires an N-type male connector (plug) to mate with the  
TRACER 4106/4206 unit. The other end of the coaxial cable requires a connector compatible with  
the antenna chosen for the installation (usually an N-type male connector). Additionally, ADTRAN  
recommends that the outdoor connector on the coaxial cable be weatherproofed to prevent corrosion  
and electrical shorting.  
In areas where lightning strikes are frequent, a lightning arrestor should be installed  
directly on the antenna coaxial cable. Installing lightning arrestors helps protect the  
RF electronics in the downstream path from damaging voltages and currents  
(including the TRACER 4106/4206 unit).  
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TRACER 4106/4206 System Manual  
Section 2 Microwave Path Engineering Basics  
Table 2 gives typical loss figures for some of the more common coaxial cable types (per 100 feet).  
Table 2. Typical Coaxial Loss for Common Cable Types  
2.4 GHz Loss/100 ft.  
(in dB)  
5.8 GHz Loss/100 ft.  
(in dB)  
Cable Type  
RG58  
80  
20  
N/A  
N/A  
RG8 (air)  
RG8 (foam)  
1/4” Coax  
9
N/A  
5.91  
5.76  
3.83  
2.98  
2.2  
11.36  
9.65  
6.49  
4.90  
N/A  
3/8” Coax  
1/2” Coax  
5/8” Coax  
7/8” Coax  
1 1/4” Coax  
1 5/8” Coax  
5.8 GHz Elliptical Waveguide  
1.62  
1.41  
N/A  
N/A  
N/A  
1.23  
Path Loss (LP)  
Path loss is the estimated attenuation between the transmit and receive antennas caused by signal  
separation and scattering. The path loss is considered basic transmission loss over the microwave link. The  
following expression calculates path loss:  
2
2
4πd  
λ
4πdf  
c
(dB)  
---------  
-----------  
L
=
=
P
where  
f
carrier frequency (Hz)  
λ
d
c
carrier wavelength (c / f) (meters)  
path distance (meters)  
speed of light, free-space (meters)  
or  
L
= 96.6 + 20 log (d) + 20·log (f)  
10  
(dB)  
P
10  
where d is expressed in miles and f in GHz  
Path loss, as shown here, increases rapidly as either the path length increases or the carrier wavelength  
decreases (which happens as the carrier frequency increases). Therefore, longer microwave paths naturally  
experience more path loss than shorter paths. Likewise, higher frequency microwave communication  
experiences more path loss than lower frequency microwave communication.  
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Section 2 Microwave Path Engineering Basics  
TRACER 4106/4206 System Manual  
Table 3 lists path loss values for various path lengths for both 2.4 GHz and 5.8 GHz systems. Values not  
listed in the table can be interpolated from those listed.  
Table 3. Path Loss for Given Path Lengths  
Path Length  
(miles)  
Path Loss (dB)  
at 2.4GHz  
Path Loss (dB)  
at 5.8 GHz  
1
2
104  
110  
114  
116  
118  
124  
128  
130  
132  
134  
135  
112  
118  
121  
124  
126  
132  
135  
138  
140  
141  
143  
3
4
5
10  
15  
20  
25  
30  
35  
5. RECEIVER SENSITIVITY  
Receiver sensitivity is a value expressed in decibels referenced to one milliwatt (dBm) that corresponds to  
the minimum amount of signal power needed at the receiver to achieve a given bit error rate (BER).  
Receiver sensitivity is usually a negative number of decibels and smaller receiver sensitivity (higher  
quantity negative number) is better for a given BER. Several factors affect receiver sensitivity including  
the data bandwidth of the wireless link, and the amount of additional signal degradation introduced in the  
receiver electronics.  
Receiver sensitivity of the TRACER 4106/4206 is dynamic as a function of desired bandwidth; receiver  
sensitivity improves as delivered bandwidth decreases. In situations where 4xT1 connectivity is not  
required, the delivered bandwidth can be decreased to either 2xT1 or 1xT1, and the receiver sensitivity will  
be improved as follows:  
Table 4. Receiver Sensitivity for the TRACER 4106/4206  
Receiver Sensitivity  
Delivered  
Active  
Bandwidth  
T1 Ports  
TRACER 4106  
-93 dBm  
TRACER 4206  
-90 dBm  
4xT1  
2xT1  
1xT1  
A – D  
A, B  
A
-96 dBm  
-93 dBm  
-98 dBm  
-95 dBm  
Should an interferer be present nearby, three software selectable bandplans are provided  
for frequency agility. Changing the TRACER 4106/4206 bandplan does not require  
additional components, or opening of the radio. See TRACER System Option > RF  
Bandplan on page 47 for additional details.  
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TRACER 4106/4206 System Manual  
Section 2 Microwave Path Engineering Basics  
6. ANTENNA INFORMATION  
The overall wireless system is directly affected by the antenna selection and installation. The following  
sections discuss several factors concerning antenna selection and installation.  
Verify the antenna installation meets all regulations specified in the National Electric  
Code (NEC) Article 810.  
Antenna Alignment  
With line-of-sight microwave communications, optimum system performance requires that the transmitting  
and receiving antennas are properly aligned. This ensures maximum received signal power at each receiver.  
Antenna alignment must be achieved in both azimuth (along a horizontal plane) and elevation (along a  
vertical plane). A received signal strength indicator (RSSI) aids the equipment installer in determining  
when alignment is maximized by simply ensuring maximum RSSI.  
TRACER RSSI Test Points  
The RSSI indicator for the TRACER 4106/4206 system is provided through the VT100 terminal menus  
accessed through the RS-232 interface, and it is presented as a series of bars indicating signal strength.  
More bars means more RSSI, which ensures more received signal strength and better link performance.  
If both the local and remote end of the system are operational, the remote TRACER 4106/4206 receive  
power can be viewed from the local TRACER 4106/4206 VT100 terminal menu interface.  
An RSSI test point, located on the front panel, provides a DC voltage level (relative to the GND test point)  
that corresponds to the amount of signal being received from the far end's transmitter. The voltage at this  
test point can vary from approximatly 0 to 5 Volts DC. An RSSI Calibration sheet is shipped with the  
system to provide the installer a cross-reference between actual received signal level (in dBm) and RSSI  
voltage. This sheet is useful for verifying link budget calculations and ensuring proper equipment  
installation.  
Antenna Beam Patterns  
Directly related to the subject of antenna alignment is the topic of antenna beam patterns. Antennas used  
with the TRACER 4106/4206 system have a particular beam shape determined in part by the physical  
construction and geometry of the antenna. The antenna beam patterns are characterized by a dominant main  
lobe, which is the preferred lobe to use for point-to-point communications, and several side lobes, as shown  
in Figure 1. When setting up a microwave link, antenna alignment is nothing more than steering the main  
lobes of both antennas until the main lobe of one transmitter is centered on the receiving element of the  
receiving antenna.  
Figure 2. Typical Antenna Beam Pattern  
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Section 2 Microwave Path Engineering Basics  
TRACER 4106/4206 System Manual  
Antennas are also designed to radiate RF energy efficiently for a specific range of frequencies. Please  
consult the data sheet for your particular antenna make and model to ensure that it is specified to operate in  
the 2400 MHz to 2483.5 MHz frequency band for TRACER 4106 models, and the 5725 MHz to 5850  
MHz frequency band for the TRACER 4206 system.  
Fresnel Zones, Earth Curvature, & Antenna Heights  
Fresnel zones correspond to regions in the microwave path where reflections of the intended signal occur  
and combine in both constructive and destructive manners with the main signal, thereby either enhancing  
or reducing the net power at the receiver.  
In general, the odd numbered Fresnel zones (1, 3, 5, ...) add constructively at the receiver, while the even  
numbered Fresnel zones (2, 4, 6, ...) add destructively at the receiver.  
The first Fresnel zone corresponds to the main lobe, 60% of which must be free of physical obstructions  
for the path calculations to be valid. Since the main lobe contains the vast majority of the microwave  
energy, this zone is typically used to determine proper antenna heights when placing antennas on towers or  
buildings.  
The curvature of the Earth becomes a legitimate obstruction for path lengths of 7 miles or greater, and must  
also be accounted for when determining minimum antenna heights.  
The aggregate expression for minimum antenna height that incorporates both the 60% first Fresnel zone  
and the Earth’s curvature is given by  
2
d
4f  
(feet)  
h = 72.1 ---- + 0.125d  
where f is in GHz and d is in miles.  
Table 5 tabulates minimum antenna heights for given path lengths.  
Table 5. Minimum Antenna Height for Given Path Lengths  
Min. Antenna Height Min. Antenna Height  
Path Length  
(miles)  
@ 2.4 GHz  
(ft)  
@ 5.8 GHz  
(ft)  
2
33  
48  
22  
32  
4
6
61  
41  
8
73  
50  
10  
14  
16  
18  
20  
22  
24  
26  
85  
60  
111  
124  
138  
153  
169  
185  
202  
81  
92  
104  
117  
131  
145  
161  
22  
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Section 2 Microwave Path Engineering Basics  
Table 5. Minimum Antenna Height for Given Path Lengths (Continued)  
Min. Antenna Height Min. Antenna Height  
Path Length  
(miles)  
@ 2.4 GHz  
(ft)  
@ 5.8 GHz  
(ft)  
28  
30  
32  
34  
36  
220  
239  
259  
279  
300  
177  
195  
213  
232  
252  
7. OTHER CONSIDERATIONS  
Path Availability  
The path availability of a wireless link is a metric that expresses the fractional amount of time a link is  
available over some fixed amount of time, and depends on several factors. Path availability is expressed as  
6  
3
F 10  
(%)  
A = [1 (2.5 × 10 )abfd (10  
)] × 100%  
where the parameters are  
a
b
f
d
F
terrain factor  
climate factor  
carrier frequency (GHz)  
path length (miles)  
fade margin (dB)  
Terrain Factor (a)  
The terrain factor is a quantity that compensates the link availability for different types of terrain.  
Generally speaking, the more smooth an area's terrain is, the less availability a wireless link running over  
that terrain will have, primarily due to multipath reflections. In contrast, secondary microwave signals will  
be randomly dispersed over rough terrain, and will not interfere with the main signal lobe as badly as in the  
smooth terrain case. The terrain factor values normally used are listed below:  
Terrain  
Smooth  
Terrain Factor  
Description  
water, flat desert  
4
1
Average  
moderate roughness  
Mountainous  
1/4  
very rough, mountainous  
Climate Factor (b)  
The climate factor is a quantity that compensates the link availability for different types of climates  
(weather). In general, microwave links operating in areas with high humidity will have less availability  
than those in arid areas, primarily because water is a dispersive mechanism to microwave energy, and  
causes the main signal lobe to refract and disperse away from the receiver location. The climate factor  
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TRACER 4106/4206 System Manual  
values normally used are listed below:  
Climate  
Very Dry  
Temperate  
Humid  
Climate Factor  
Description  
1/8  
1/4  
1/2  
desert regions  
mainland, interior region  
humid and coastal regions  
24  
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ENGINEERING GUIDELINES  
Provides information to assist network designers with incorporating the TRACER 4106/4206 system into  
their networks.  
CONTENTS  
FIGURES  
TABLES  
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Section 3 Engineering Guidelines  
TRACER 4106/4206 System Manual  
1. EQUIPMENT DIMENSIONS  
The TRACER 4106/4206 unit is 17.12” W, 9.34” D, and 1.72” H and can be used in 19 or 23-inch rack-mount  
configurations.  
2. POWER REQUIREMENTS  
The TRACER 4106/4206 system has a maximum power consumption of 20 Watts and a maximum current draw of  
0.95 Amp (at 21 VDC).  
3. REVIEWING THE FRONT PANEL DESIGN  
The front panel contains an RSSI test point, a GND reference for use with the RSSI test point, and status LEDs to  
provide visual information about the TRACER 4106/4206 system. Figure 1 identifies the various test points and the  
LEDs on a TRACER 4206 front panel. The TRACER 4106 front panel layout is identical to the TRACER 4206  
front panel.  
Status LEDs  
ALARM  
T1A T1B T1C T1D  
TRACER 4206  
RSSI  
GND  
Figure 1. TRACER 4206 Front Panel Layout  
RSSI Monitoring Interface  
The RSSI voltage is a function of the signal strength at the receiver and is used to measure the received signal  
strength. RSSI varies from approximately 0 to 5 Volts DC (VDC). An RSSI Calibration sheet is shipped with the  
system to provide the installer a cross-reference between actual received signal level (in dBm) and RSSI voltage.  
This sheet is useful for verifying link budget calculations and ensuring proper equipment installation.  
Front Panel LEDs  
With the TRACER 4106/4206 powered-on, the front panel LEDs provide visual information about the status of the  
TRACER 4106/4206 system. Table 1 provides a brief description of the front panel features, and Table 2 provides  
detailed information about the LEDs.  
Table 1. TRACER 4106/4206 Front Panel Description  
Feature  
RSSI Interface  
Description  
DC voltage indicating strength of the received signal  
Ground reference for RSSI interface  
GND Interface  
Status LEDs  
Status information about the system  
26  
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Section 3 Engineering Guidelines  
Table 2. TRACER 4106/4206 LEDs  
For these LEDs...  
PWR  
This color light...  
Indicates that...  
Green (solid)  
Off  
the TRACER 4106/4206 is connected to a power source.  
the TRACER 4106/4206 is not currently powered up.  
the TRACER 4106/4206 is transmitting on Frequency Plan A.  
Green (solid)  
PLAN A  
the TRACER 4106/4206 is not transmitting on Frequency  
Plan A.  
Off  
Green (solid)  
Off  
the TRACER 4106/4206 is transmitting on Frequency Plan B.  
PLAN B  
the TRACER 4106/4206 is not transmitting on Frequency  
Plan B.  
there is a communication problem between the local and remote  
TRACER 4106/4206 systems.  
RF DOWN  
Red (solid)  
Red (solid)  
T1A  
.
there is an Alarm Condition on a T1 Interface. Check the  
respective T1 status page to identify the active alarm.  
.
.
.
T1 Alarms  
Red (blinking)  
the respective T1 is in a loopback mode.  
T1D  
RF LOW  
TST  
Red (solid)  
the RSSI level is approaching 0 Volts of RSSI.  
Amber (solid)  
there is an active test being performed by the system.  
4. REVIEWING THE TRACER 4106/4206 REAR PANEL DESIGN  
Figure 2 identifies the various features of the TRACER 4106/4206 rear panel and Table 1 on page 26  
provides a brief description of each interface.  
E
A
G
DC Power  
Connection  
Antenna  
Connector  
RS232 Interface  
(VT100 Terminal)  
T1A  
T1B  
T1C  
T1D  
H
F
Fuse  
B
Test  
D
Ground  
Lug  
C
Alarm  
Contacts  
T1 Interfaces  
Figure 2. TRACER 4106/4206 Rear Panel  
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1
Table 1. Rear Panel Description  
Connector Description  
Name  
A
RS-232  
DB-25 (female) VT100 terminal (or PC with terminal emulation software)  
connection  
B
C
D
E
F
Test  
1/4” bantam  
RJ-48C  
Factory test connection  
T1A - T1D  
Alarm  
T1 device connection  
Terminal block  
Terminal block  
N/A  
External alarm monitoring system connection  
21-60 VDC power source connection  
2 A, 250 V, 2 inch slow-blo fuse  
Antenna feedline cable connection  
Earth ground connection  
DC Power  
Fuse  
G
H
Antenna  
Ground Lug  
N-Type  
N/A  
1
Detailed discussions (including pinouts) of rear panel components (where applicable) follow the table.  
RS-232 Connection (DB-25) — Terminal Use  
The RS-232 connector provides a female DB-25 terminal connection (wired as a DCE interface), which is  
used for terminal access to the TRACER 4106/4206 system. The RS-232 port provides the following  
functions:  
Accepts EIA-232 input from a PC or terminal for controlling the TRACER 4106/4206 system  
Operates at 9600 bps  
Table 2 shows the pinout. Wiring diagrams for connecting to the RS-232 connector (for various  
applications) are provided following the pinout.  
Table 2. RS-232 Connection Pinout  
PIN  
1, 7  
2
NAME  
GND  
TX  
DESCRIPTION  
Ground  
Transmit  
3
RX  
Receive  
4
RTS  
CTS  
DSR  
CD  
Request To Send  
Clear To Send  
5
6
Data Set Ready (Modem Control Only)  
8
Carrier Detect  
9-19  
20  
21  
22  
23-25  
Unused  
DTR  
Data Terminal Ready (Modem Control Only)  
Unused  
RI  
Ring Indicator  
Unused  
28  
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Table 3. TRACER 4106/4206 (DCE) to Terminal (DTE) Diagram (DB-25)  
PIN  
2
NAME  
TX  
PIN  
3
NAME  
TX  
3
RX  
2
RX  
4
RTS  
CTS  
DSR  
GND  
4
RTS  
CTS  
DSR  
GND  
5
5
6
6
7
7
Table 4. TRACER 4106/4206 (DCE) to Personal Computer (DB-9)  
PIN  
2
NAME  
TX  
PIN  
3
NAME  
TX  
3
RX  
2
RX  
4
RTS  
CTS  
DSR  
GND  
7
RTS  
CTS  
DSR  
GND  
5
8
6
6
7
5
RS-232 Connection (Modem Use)  
Modem controls, discussed in Section 5, User Interface Guide, enable or disable modem control  
through the RS-232 interface. When this option is enabled from a standard terminal connection, all  
RS-232 communications cease until a modem with a null modem adapter is attached between the  
TRACER 4106/4206 and the data modem. Configure the data modem for AUTO ANSWER and 9600 BPS.  
When the user connects via the modem to the TRACER 4106/4206 unit, communications via the RS-232  
port resume. If a user accidentally enables modem control from a terminal and disrupts the RS-232  
communication, pressing <Ctrl + Z> three times will temporarily disable the modem control option (until  
the system is reset) and will access the system option to disable modem control.  
The TRACER 4106/4206 must be interfaced to a modem via an RS-232 null modem adapter or cable. The  
null modem converts Clear To Send (CTS) and Data Set Ready (DSR) into Ready To Send (RTS) and Data  
Terminal Ready (DTR), respectively. These signals indicate (to most modems) that a valid DTE terminal  
device is present. The null modem interface must route Carrier Detect (CD) on pin 8 directly from the  
modem. When using the RS-232 interface for modem control, the modem must source CD only when  
actually connected to a carrier.  
When MODEM CONNECTION is selected in the menu system, the TRACER 4106/4206 will de-assert DTR  
and DSR for a time greater than 20 msec. The null modem consequently drops DTR and RTS at the  
modem interface, signaling the modem to hang up the line. If password functionality is enabled in the  
TRACER 4106/4206, selecting MODEM CONNECTION resets the TRACER 4106/4206 to the password entry  
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TRACER 4106/4206 System Manual  
screen.  
Hangup-on-DTR-drop may need to be explicitly enabled on some modems.  
Table 5 contains the wiring diagram needed for connecting the TRACER 4106/4206 RS-232 interface to a  
modem using the null modem adapter.  
The null modem interface must route Carrier Detect (CD) on pin 8 directly from the  
modem. When using the RS-232 interface for modem control, the modem must source CD  
only when actually connected to a carrier.  
Table 5. TRACER 4106/4206 (DCE) to Modem (DCE - DB-25)  
PIN  
2
NAME  
TX  
PIN  
3
NAME  
RX  
3
RX  
2
TX  
4
RTS  
CTS  
DSR  
GND  
CD  
5
CTS  
RTS  
DTR  
GND  
CD  
5
4
6
20  
7
7
8
8
T1 Connections (RJ-48C)  
The physical T1 interfaces are provided by eight RJ-48C jacks that comply with the applicable ANSI and  
AT&T® standards.  
Table 6. T1 Interface Connector Pinout  
PIN  
NAME  
DESCRIPTION  
Transmit data (ring) towards the network  
Transmit data (tip) towards the network  
1
R
2
T
UNUSED  
R1  
3, 6-8  
4
5
Receive data (ring) toward the network  
Receive data (tip) from the network  
T1  
30  
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Alarm Contacts (Plug-In Terminal Block)  
An RF link down condition is indicated with both normally open (NO) and normally closed (NC) alarm  
contacts on the rear panel of the TRACER 4106/4206 system. In normal operation, the NC contact is  
electrically connected to the common contact (COM) and the NO contact is isolated. When the RF link  
drops, the NC contact becomes isolated and the NO is electrically connected to COM. This allows RF  
down conditions to be reported to external alarm monitoring systems.  
Table 7. Alarm Contact Connector Pinout  
PIN  
1
NAME  
COM  
NO  
DESCRIPTION  
Common Contact  
2
Normally-Open Contact  
Normally-Closed Contact  
3
NC  
DC Power Connection (Plug-In Terminal Block)  
The TRACER 4106/4206 can operate from a supply between 21 and 60 VDC, with either polarity  
referenced to ground, and consumes less than 20 Watts (W). Power supplies should be able to provide up to  
30 W at the selected voltage. Current required (in Amps) is determined by dividing the power consumed  
(in Watts) by the applied voltage (in Volts). For example, at 48 V, TRACER 4106/4206 would draw  
approximately 0.417 A (20 W/48 V).  
The + terminal of the DC power connection must be connected to the most positive voltage rail, while the  
– terminal must be connected to the most negative voltage rail. For example, a +24 V source should be  
delivered to the TRACER 4106/4206 by connecting +24 V to the + terminal of the TRACER 4106/4206  
power terminal block and ground (the most negative voltage) to the TRACER 4106/4206 – terminal.  
Alternately, a -48V supply should be delivered to the TRACER 4106/4206 by connecting ground (the most  
positive voltage) to the + terminal of the TRACER 4106/4206 power terminal block and -48 V to the –  
terminal.  
If the power supply voltages are incorrectly connected to the TRACER 4106/4206  
system, the fuse will blow.  
Table 8. DC Power Connector Pinout  
PIN  
1
NAME  
+ Voltage  
– Voltage  
-
Ground (GND)  
+ Voltage  
– Voltage  
2
+
Ground (GND)  
Fuse  
The fuse holder, accessible from the rear panel of the TRACER 4106/4206, accepts a generic 1A, 250 V,  
2-inch slow-blo fuse.  
Antenna Interface (N-Type connector)  
The ANTENNA interface (N-Type connector) connects to the customer-supplied antenna using standard  
antenna feedline cable. When determining the cable specifications for your application, refer to Section 2,  
Microwave Path Engineering Basics (System Losses (L) on page 18) for a discussion on cable length and  
loss factors.  
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5. AT-A-GLANCE SPECIFICATIONS  
The following is a list of specifications for the TRACER 4106/4206 system.  
Table 9. At-A-Glance Specifications  
Hardware  
Description  
Specification  
Transmitter  
Output Power  
+20 dBm, max  
2400 to 2483.5 MHz (TRACER 4106)  
5725 to 5850 MHz (TRACER 4206)  
Frequency Range  
Receiver  
Receive Level, Minimum  
TRACER 4106  
-93 dBm @ 4xT1, -96 dBm @ 2xT1, -98 dBm @ 1xT1  
TRACER 4206  
-90 dBm @ 4xT1, -93 dBm @ 2xT1, -95 dBm @ 1xT1  
Receive Level, Maximum  
Receive Level, Nominal  
-30 dBm  
-55 dBm  
Frequency Plan  
Channel  
Plan  
Tx 2.416 GHz, Rx 2.456 GHz (TRACER 4106)  
Tx 5.734 GHz, Rx 5.814 GHz (TRACER 4206)  
1
2
3
Plan A  
Tx 2.422 GHz, Rx 2.462 GHz (TRACER 4106)  
Tx 5.744 GHz, Rx 5.824 GHz (TRACER 4206)  
Tx 2.428 GHz, Rx 2.468 GHz (TRACER 4106)  
Tx 5.753 GHz, Rx 5.833 GHz (TRACER 4206)  
Channel  
Plan  
Tx 2.456 GHz, Rx 2.416 GHz (TRACER 4106)  
Tx 5.814 GHz, Rx 5.734 GHz (TRACER 4206)  
1
2
3
Plan B  
Tx 2.462 GHz, Rx 2.422 GHz (TRACER 4106)  
Tx 5.824 GHz, Rx 5.744 GHz (TRACER 4206)  
Tx 2.468 GHz, Rx 2.428 GHz (TRACER 4106)  
Tx 5.833 GHz, Rx 5.753 GHz (TRACER 4206)  
T1 Interface  
Capacity  
Connection  
Line Code  
Framing  
1.544 Mbps (each)  
RJ-48C jacks  
B8ZS, AMI  
ESF, D4  
Alarms  
AIS, Red, Yellow, BPVs, LOS  
Local and remote (line and link)  
Loopbacks  
32  
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Section 3 Engineering Guidelines  
Table 9. At-A-Glance Specifications (Continued)  
Hardware  
Description  
Specification  
User Interface  
Panel  
Alarm LEDs  
Diagnostics  
Test Points  
Alarms  
Line and Link Loopbacks  
RSSI and GND  
Normally Open (NO) and Normally Closed (NC)  
Menu Driven User Interface, Control of the Remote End,  
Loopback Test, Optional Password Protection, Event  
History  
VT100 Terminal  
VT100 Terminal Interface  
Data Rate  
9600 bps  
Data Bits  
8
Parity  
None  
1
Stop Bits  
Terminal Emulation  
VT100  
Mechanical and Environmental  
Operating Temperature  
-25° C to 65° C  
Size  
17.12” W x 9.34” D x 1.72” H  
95%, Non-condensing  
Humidity  
Weight  
9 lbs (TRACER 4106), 7 lbs (TRACER 4206)  
Power  
Input Voltage  
Power Consumption  
Connector  
21 to 60 VDC, either polarity referenced to ground  
< 20 Watts  
2 pin terminal block (DC)  
Fuse  
1A, 250V slow-blo fuse (2-inch)  
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NETWORK TURNUP PROCEDURE  
Provides shipment contents list, grounding instructions, mounting options, and specifics of supplying  
power to the unit.  
CONTENTS  
FIGURES  
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Section 4 Network Turnup Procedure  
TRACER 4106/4206 System Manual  
1. INTRODUCTION  
This section discusses the installation process of the TRACER 4106/4206 system.  
Changes or modifications not expressly approved by ADTRAN could void the users  
authority to operate the equipment.  
2. TOOLS REQUIRED  
The tools required for the installation of the TRACER 4106/4206 are:  
VT100 terminal or PC with terminal emulation software  
RS-232 (DB-25 male for TRACER 4106/4206) cable for connecting to terminal  
To prevent electrical shock, do not install equipment in a wet location or during a lightning  
storm.  
3. UNPACK AND INSPECT THE SYSTEM  
This system MUST be installed by qualifed service personnel in a Restricted Access  
Location.  
Each TRACER 4106/4206 is shipped in its own cardboard shipping carton. Open each carton carefully and  
avoid deep penetration into the carton with sharp objects.  
After unpacking the unit, inspect it for possible shipping damage. If the equipment has been damaged in  
transit, immediately file a claim with the carrier, then contact ADTRAN Customer Service (see Customer  
Service, Product Support Information, and Training information in the front of this manual).  
Contents of ADTRAN Shipment  
Your ADTRAN shipment includes the following items:  
TRACER 4106/4206 Unit  
TRACER 4106/4206 Documentation CD  
Four T1 Straight Through (RJ-48 to RJ-48) Cables  
36  
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Section 4 Network Turnup Procedure  
Customer Provides  
The following items are necessary for the installation of the TRACER 4106/4206 system and are not  
provided by ADTRAN:  
21 to 60 VDC power source (or AC adapter available from ADTRAN P/N 1280650L1), either polarity  
referenced to ground  
Antenna and mounting hardware  
Antenna feedline cable  
Lightning arrestors  
Weatherproofing kits for antenna installation  
4. CHANNEL SELECTION  
The FCC has allocated 83.5 MHz of spectrum in the 2.4 GHz band where the TRACER 4106 operates, and  
125 MHz of spectrum in the 5.8 GHz band where the TRACER 4206 operates. Figure 1 and Figure 2  
illustrate the bandwidth division.  
Channel A  
Channel B  
2400 MHz  
2416  
2422  
2428  
Bandplan 3  
2441.75  
2456  
2462  
2468  
Bandplan 3  
2483.5 MHz  
Bandplan 1  
Bandplan 1  
Bandplan 2  
Bandplan 2  
Figure 1. 2.4 GHz Bandwidth Division (TRACER 4106)  
Channel A  
Channel B  
Bandplan 1  
5734  
Bandplan 2  
5744  
Bandplan 3  
5753  
Bandplan 1  
5814  
Bandplan 2  
5824  
Bandplan 3  
5833  
5725 MHz  
5787  
5850 MHz  
Figure 2. 5.8 GHz Bandwidth Division (TRACER 4206)  
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TRACER 4106/4206 System Manual  
To designate the utilization of the ISM bandwidth, there are two different channel plans, labeled A and B.  
The letter of each channel plan setting is preset by the factory and refers to the physical configuration of  
the diplexer filter inside the chassis. Each channel is then divided into three bandplans (1, 2 or 3). The  
bandplans must be the same for the local and remote TRACER 4106/4206. For example, the transmitter at  
one end of the link will transmit in bandplan 1 of channel A (the lower portion of the spectrum) and receive  
in bandplan 1 of channel B (the upper portion). Consequently, the receiver at the other end should receive  
in bandplan 1 of channel A (the lower portion) and transmit in bandplan 1 of channel B (the upper portion).  
The letter of the channel plan (A or B) must be different on both ends and the number of the bandplan (1, 2,  
or 3) must be the same on both ends. The default bandplan configuration for the TRACER 4106/4206 is  
bandplan 1.  
The channel plan (A or B) of the unit may be changed in the field, if necessary, by rewiring the internal  
diplexer. Contact ADTRAN Technical Support for more information on this procedure.  
5. GROUNDING INSTRUCTIONS  
The following provides grounding instruction information from the Underwriters’ Laboratory UL 60950  
Standard for Safety of Information Technology Equipment Including Electrical Business Equipment, of  
December 2000.  
An equipment grounding conductor that is not smaller in size than the ungrounded branch-circuit supply  
conductors is to be installed as part of the circuit that supplies the product or system. Bare, covered, or  
insulated grounding conductors are acceptable. Individually covered or insulated equipment grounding  
conductors shall have a continuous outer finish that is either green, or green with one or more yellow  
stripes. The equipment grounding conductor is to be connected to ground at the service equipment.  
The attachment-plug receptacles in the vicinity of the product or system are all to be of a grounding type,  
and the equipment grounding conductors serving these receptacles are to be connected to earth ground at  
the service equipment.  
A supplementary equipment grounding conductor shall be installed between the product or system and  
ground that is in addition to the equipment grounding conductor in the power supply cord.  
The supplementary equipment grounding conductor shall not be smaller in size than the ungrounded  
branch-circuit supply conductors. The supplementary equipment grounding conductor shall be connected  
to the product at the terminal provided, and shall be connected to ground in a manner that will retain the  
ground connection when the product is unplugged from the receptacle. The connection to ground of the  
supplementary equipment grounding conductor shall be in compliance with the rules for terminating  
bonding jumpers at Part K or Article 250 of the National Electrical Code, ANSI/NFPA 70. Termination of  
the supplementary equipment grounding conductor is permitted to be made to building steel, to a metal  
electrical raceway system, or to any grounded item that is permanently and reliably connected to the  
electrical service equipment ground.  
The supplemental grounding conductor shall be connected to the equipment using a number 8 ring terminal  
and should be fastened to the grounding lug provided on the rear panel of the equipment. The ring terminal  
should be installed using the appropriate crimping tool (AMP P/N 59250 T-EAD Crimping Tool or  
equivalent.)  
The supplemental equipment grounding terminal is located on the rear panel of the  
TRACER 4106/4206.  
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TRACER 4106/4206 System Manual  
Section 4 Network Turnup Procedure  
This unit shall be installed in accordance with Article 400 and 364.8 of the NEC NFPA  
70 when installed outside of a Restricted Access Location (i.e., central office, behind a  
locked door, service personnel only area).  
Power to the TRACER 4106/4206 DC system must be from a reliably grounded  
21-60 VDC UL Listed or CSA Certified ITE power source with outputs meeting LPS  
requirements.  
The branch circuit overcurrent protection shall be a fuse or circuit breaker rated  
minimum 60 VDC, maximum 10A.  
A readily accessible disconnect device that is suitably approved and rated shall be  
incorporated in the field wiring.  
6. SUPPLYING POWER TO THE UNIT  
The TRACER 4106/4206 can operate from a supply between 21 and 60 VDC, with either polarity  
referenced to ground. Power supplies should be able to provide up to 30 watts at the selected voltage. A  
dual pin terminal plug accepts power at the rear panel of the unit, providing a + and - polarity reference  
point. Adapters for this plug are available (P/N 1175043L2) and are furnished with the unit and optional  
power supply (P/N 1280650L1).  
7. MOUNTING OPTIONS  
Install the TRACER 4106/4206 in a location that requires minimal antenna feedline length (the loss in this  
cable directly affects overall system performance). The TRACER 4106/4206 is designed to be mounted in  
a rack. If multiple units are installed in one location, one half inch of spacing is recommended above and  
below the unit.  
The TRACER 4106/4206 systems are 1U high, rack-mountable units which can be installed into 19 or  
23-inch equipment racks using the supplied rackmount brackets (3265498@B). Follow these steps to  
mount the TRACER 4106/4206 into a rack:  
Instructions for Rackmounting the TRACER 4106/4206  
Position the TRACER 4106/4206 in a stationary equipment rack. This unit takes up  
1
2
1U of space. To allow proper grounding, scrape the paint from the rack around the  
mounting holes where the TRACER 4106/4206 will be positioned.  
Have someone else hold the unit in position as you install two mounting bolts  
through the unit’s brackets and into the equipment rack using a #2 Phillips  
screwdriver.  
Be careful not to upset the stability of the equipment mounting rack when installing this  
product.  
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TRACER 4106/4206 System Manual  
ALARM  
T1A T1B T1C T1D  
TRACER 4206  
4206  
CER  
A
TR  
Figure 3. 19-inch Rackmount Illustration  
ALARM  
T1A T1B T1C T1D  
TRACER 4206  
CER 4206  
TRA  
Figure 4. 23-inch Rackmount Illustration  
8. CONNECTING THE T1 INTERFACE  
The physical T1 interface is provided using four RJ-48C jacks for transmit and receive. The provided  
straight through T1 interface cables can be used to interface to any standard T1 DTE device.  
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USER INTERFACE GUIDE  
Provides detailed descriptions of all menu options and configuration parameters available for the  
TRACER 4106/4206.  
This section of ADTRAN’s TRACER 4106/4206 System Manual is designed for use by network  
administrators and others who will configure and provision the system. It contains information about  
navigating the VT100 user interface, configuration information, and menu descriptions.  
CONTENTS  
FIGURES  
TABLES  
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Section 5 User Interface Guide  
TRACER 4106/4206 System Manual  
1. NAVIGATING THE TERMINAL MENU  
The TRACER 4106/4206 menu system can be accessed with a VT100 compatible terminal that is  
connected to the RS-232 port located on the back of the unit and set to 9600 bits per second, 8 data bits, 1  
stop bit, and no parity. Flow control on the serial interface should be configured to NONE for proper  
operation. Once a terminal is connected, press <Ctrl + L> to refresh the current screen. If password access  
has been enabled, the ENTER PASSWORD message displays at the bottom of the TRACER 4106/4206  
System Status menu.  
All TRACER 4106/4206 systems are shipped factory default with password protection  
disabled.  
Terminal Menu Window  
The TRACER 4106/4206 uses a series of menu pages and a single main menu page to access its many  
features. The main menu page (see Figure 1) provides a link to all available configuration/status pages.  
After connecting a VT100 terminal to the TRACER 4106/4206, press <Ctrl + L> to redraw  
the current screen.  
Figure 1. Main Menu Screen  
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Section 5 User Interface Guide  
Navigating using the Keyboard Keys  
You can use various keystrokes to move through the terminal menu, to manage a terminal menu session,  
and to configure the system.  
Moving Through the Menus  
To do this...  
Press this key...  
Up Arrow  
P (Prev)  
Move up to select items  
Down Arrow  
N (Next)  
Move down to select items  
Edit a selected menu item  
Enter  
Scroll through configuration parameters for a menu item  
Spacebar  
Left/Right Arrows  
P or N (Prev/Next)  
Cancel an edit  
Escape  
Return to Main Menu page  
M
S
Access the TRACER 4106/4206 Status page  
Access the System Options Menu  
O
Display the TRACER 4106/4206 Link Performance History  
Access the T1 (A through D) Status/Configuration/Loopback Menu  
Display the T1 (A through D) Performance History  
L
A-D  
1-4  
Session Management Keystrokes  
To do this...  
Press this key...  
Refresh the screen  
<Ctrl + L>  
2. TERMINAL MENU AND SYSTEM CONTROL  
Password Protection  
The TRACER 4106/4206 provides optional password protection of the terminal interface. If enabled, a  
password prompt is presented at power-up, reboot, modem logout, or after ten minutes of inactivity on the  
terminal. The password is enabled and defined via the system options menu.  
All TRACER 4106/4206 systems are shipped factory default with password protection  
disabled.  
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Section 5 User Interface Guide  
TRACER 4106/4206 System Manual  
3. MENU DESCRIPTIONS  
The remainder of this section describes the TRACER 4106/4206 menus and submenus.  
The menu structure of the TRACER 4106/4206 system is depicted below as follows:  
> MENU PAGE  
> MENU PAGE > MENU SELECTION  
> MENU PAGE > MENU SELECTION > SUB-MENU  
>TRACER SYSTEM STATUS  
Figure 2 shows the TRACER 4106/4206 System Status menu page. The status of major system  
components for both sides of the TRACER link are displayed, but no configuration can be performed from  
this view.  
A
Elapsed  
B
D
D
T1 Status  
Contact  
Time  
Information  
T1 Status  
(Error/Alarm  
Only)  
(Error/Alarm  
Only)  
F
E
TRACER  
Remote  
Status  
Local  
TRACER  
Status  
H
C
RF Status  
H
Frequency  
Plan  
Frequency  
Plan  
G
Site Name  
I
I
Rx Quality  
Rx Quality  
J
J
J
Rx Power  
K
Rx Power  
Rx Power  
K
Navigation Reminder  
L
Tx Power  
Tx Power  
Figure 2. TRACER 4106/4206 System Status  
A. Elapsed Time  
The top of the TRACER 4106/4206 System Status menu page displays the elapsed time the  
TRACER 4106/4206 system has been operational since the last power reset.  
B. Contact Information  
The ADTRAN technical Support toll-free contact number is located directly beneath the elapsed time  
display at the top of the TRACER 4106/4206 System Status menu page.  
C. RF Status  
A graphical indicator of the TRACER RF link is located beneath the Technical Support contact  
number. The status of the received radio link is indicated as RF UP or RF DOWN for each direction.  
This RF status display corresponds to the RF DOWN LED on the front of the unit.  
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Section 5 User Interface Guide  
D. T1 Status (Error/Alarm Only)  
A visual status of current errors/alarms on the T1 interfaces (for both the local and remote TRACER  
systems) is provided on the TRACER 4106/4206 System Status menu page. T1A through T1D  
displayed in reverse highlight indicates an active error or alarm condition. Individual T1 status pages  
(accessible from the main menu) provide detailed T1 information.  
E. Remote TRACER Status  
The right portion of the TRACER 4106/4206 System Status menu page reports the status of the remote  
TRACER 4106/4206 (the system across the wireless link from the active terminal). If the RF link is  
down in either direction, DATA NOT AVAILABLE is displayed in place of the remote system status  
information.  
F. Local TRACER Status  
The left portion of the TRACER 4106/4206 System Status menu page reports the status of the local  
TRACER 4106/4206 (the system where the active terminal is attached).  
G. Site Name  
The SITE NAME field provides a user-defined alphanumeric description (up to 25 characters) for the  
TRACER 4106/4206 system. This field is defined from the TRACER 4106/4206 System Options  
menu page.  
H. Frequency Plan  
Displays the frequency plan (A or B) for the TRACER 4106/4206 unit. For an operational  
TRACER 4106/4206 system you should have a frequency plan A radio at one end of the link and a  
frequency plan B radio at the other end of the link.  
I. Rx Quality  
Displays an indicator of receive signal quality that is not necessarily related to receive signal level (for  
both the local and remote units) using a series of symbols (#). The more symbols displayed, the better  
the signal quality. This indicator is related to signal-to-noise ratio and features a colon (:) marker to  
indicate 10-6 bit error rate. This indicator is useful as a diagnostic tool to help identify interference, as  
the system may have high receive signal level and poor signal quality in situations where interference  
is an issue.  
J. Rx Power  
Displays the approximate receiver levels (for both the local and remote units) using a series of symbols  
(#). The more symbols (#) displayed, the stronger the signal. If the link is down in either direction,and  
remote end data is unavailable, DATA NOT AVAILABLE is displayed in place of the symbols (#).  
K. Tx Power  
Displays the approximate transmitter levels (for both the local and remote units) using a series of  
symbols (#). The more symbols (#) displayed, the stronger the signal. If the link is down in either  
direction, and remote end data is unavailable, DATA NOT AVAILABLE is displayed in place of the  
symbols (#).  
L. Navigation Reminders  
Displays system navigation reminders. For more details on system navigation, refer to Navigating the  
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Section 5 User Interface Guide  
TRACER 4106/4206 System Manual  
>MAIN MENU  
The TRACER 4106/4206 Main Menu page provides access to all other configuration/status pages.  
Figure 3 shows the TRACER 4106/4206 Main Menu page.  
Figure 3. TRACER 4106/4206 Main Menu  
From the keyboard, use the up and down arrow keys to scroll through the available pages, or enter the  
number or letter of the selected page (to highlight the menu page) and press <Enter>.  
Press <m> from any menu in the TRACER 4106/4206 VT100 menu structure to access the  
TRACER 4106/4206 Main Menu page.  
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Section 5 User Interface Guide  
>TRACER SYSTEM OPTIONS  
Figure 4 shows the TRACER 4106/4206 System Options menu page. System option parameters for both  
the local and remote TRACER 4106/4206 units are available through this menu page.  
Figure 4. TRACER 4106/4206 System Options  
Press <O> from any menu in the TRACER 4106/4206 VT100 menu structure to access the  
TRACER System Options menu page.  
>TRACER SYSTEM OPTIONS > RX POWER  
Displays the approximate receiver levels (for both the local and remote units) using a series of symbols (#).  
The more symbols (#) displayed, the stronger the signal. If the link is down in either direction, and remote  
end data is unavailable, DATA NOT AVAILABLE displays in place of the symbols (#). This parameter is  
display only.  
>TRACER SYSTEM OPTIONS > TX POWER  
Allows the transmitter levels (for both the local and remote units) to be adjusted. The current transmitter  
level is displayed using a series of symbols (#). The more symbols (#) displayed, the stronger the signal. If  
the link is down in either direction, and remote end data is unavailable, DATA NOT AVAILABLE displays in  
place of the symbols (#).  
Reducing the transmitter power of the remote TRACER 4106/4206 could cause the RF link  
to drop, requiring a technician to manually increase transmit power through the menu  
system at the remote site.  
>TRACER SYSTEM OPTIONS > SITE NAME  
Provides a user-defined alphanumeric description (up to 25 characters) for the TRACER 4106/4206  
system.  
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Section 5 User Interface Guide  
TRACER 4106/4206 System Manual  
>TRACER SYSTEM OPTIONS > RF BANDPLAN  
Sets the bandplan for the TRACER 4106/4206. Each channel is divided into three bandplans (1, 2, or 3).  
Both local and remote TRACER 4106/4206 must be configured with the same bandplan (1, 2, or 3) but  
different channel plans (Plan A or Plan B). For example, the transmitter at one end of the link will transmit  
in bandplan 1 of channel A (the lower portion of the spectrum) and receive in bandplan 1 of channel B (the  
upper portion). Consequently, the receiver at the other end should receive in bandplan 1 of channel A (the  
lower portion) and transmit in bandplan 1 of channel B (the upper portion). (Refer to Figures 5 and 6 for  
the 2.4 GHz and 5.8 GHz bandwidth division, respectively.) The TRACER 4106/4206 comes factory  
programmed with RF bandplan set to Band 1.  
When changing RF bandplans on installed links, change the remote end first. If the local  
end is changed first, remote configuration capability is lost. In the event the local end is  
changed first and the link is dropped, reset the local end to the previous setting to restore  
the link.  
Channel A  
Channel B  
2400 MHz  
2416  
2422  
2428  
Bandplan 3  
2441.75  
2456  
2462  
2468  
Bandplan 3  
2483.5 MHz  
Bandplan 1  
Bandplan 1  
Bandplan 2  
Bandplan 2  
Figure 5. 2.4 GHz Bandwidth Division (TRACER 4106)  
Channel A  
Channel B  
Bandplan 1  
5734  
Bandplan 2  
5744  
Bandplan 3  
5753  
Bandplan 1  
5814  
Bandplan 2  
5824  
Bandplan 3  
5833  
5725 MHz  
5787  
5850 MHz  
Figure 6. 5.8 GHz Bandwidth Division (TRACER 4206)  
>TRACER SYSTEM OPTIONS >ACTIVE T1 PORTS  
Configures the delivered bandwidth of the TRACER 4106/4206. When 4XT1 ports are active, the system  
receive sensitivity is -90 dBm (TRACER 4106) and -85 dBm (TRACER 4206). As the delivered  
bandwidth is decreased, receive sensitivity improves (see Table 1 on page 49).  
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Section 5 User Interface Guide  
Table 1. Receiver Sensitivity for the TRACER 4106/4206  
Receiver Sensitivity  
Delivered  
Active  
Bandwidth  
T1 Ports  
TRACER 4106  
TRACER 4206  
-90 dBm  
4xT1  
2xT1  
1xT1  
-93 dBm  
-96 dBm  
-98 dBm  
A – D  
A, B  
A
-93 dBm  
-95 dBm  
Both ends of the TRACER link must be set to the same number of active T1 ports. The TRACER 4106/4206  
comes factory programmed with ACTIVE T1 PORTS set to 4XT1.  
When changing active T1 ports on installed links, change the remote end first. If the local  
end is changed first, remote configuration capability is lost. In the event the local end is  
changed first and the link is dropped, reset the local end to the previous setting to restore  
the link.  
>TRACER SYSTEM OPTIONS > MODEM CONTROL  
Configures the modem control leads on the RS-232 port (terminal interface located on the rear panel of the  
unit). Set MODEM CONTROL to ENABLED when connecting the unit to a modem (using a null modem adapter).  
Setting MODEM CONTROL to DISABLED prevents the TRACER 4106/4206 from monitoring DCD and enables  
data to be sent to the VT100 continuously. MODEM CONTROL must be set to DISABLED when the VT100  
terminal is in use. The TRACER 4106/4206 comes factory programmed with MODEM CONTROL set to  
DISABLED.  
Press <Ctrl+Z> three times from the terminal interface to disable MODEM CONTROL when  
the modem control leads are active.  
>TRACER SYSTEM OPTIONS > MODEM CONNECTION (LOGOUT)  
Causes the TRACER 4106/4206 to de-assert Clear To Send (CTS) and DSR for a time greater than 20 msec.  
This signals the modem to disconnect the analog connection. Hangup-On-DTR-Drop may need to be  
explicitly enabled on some modems. If PASSWORD PROTECTION is ENABLED, this menu also causes the unit to  
close the current session and return to the TRACER System Status menu page and wait for password input.  
>TRACER SYSTEM OPTIONS > PASSWORD ENABLE  
Configures password protection for the VT100 terminal interface. Password protection for the  
TRACER 4106/4206 requires password input from the TRACER 4106/4206 System Status menu page when  
connecting to the unit. When configured for password protection, the TRACER 4106/4206 closes any  
terminal session that remains inactive for more than 10 minutes. The TRACER 4106/4206 comes factory  
programmed with PASSWORD ENABLE set to DISABLED.  
>TRACER SYSTEM OPTIONS > PASSWORD  
Sets the password for password protection of the TRACER 4106/4206 VT100 terminal interface. Enter up to  
8 alphanumeric characters. The system password is case sensitive.  
The default password for the TRACER 4106/4206 is tracer.  
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TRACER 4106/4206 System Manual  
>TRACER SYSTEM OPTIONS > PERFORMANCE STATS (CLEAR)  
Resets all system error counters for the TRACER 4106/4206.  
>TRACER LINK PERFORMANCE HISTORY  
Figure 7 shows the TRACER 4106/4206 Link Performance History menu page, which displays detailed  
error statistics and minimum received signal level for the RF link (from both the local and remote TRACER  
4106/4206 units) in 15-minute and 24-hour increments.  
7
Days  
24  
Hours  
Figure 7. TRACER Link Performance History  
The minimum received signal level (MIN RSL) represents the minimum value of received signal level in a  
24-hour or 15-minute increment and is displayed as a numerical value from 0 to 255 with 0 corresponding to  
0 Volts of RSSI and 255 corresponding to 5 Volts RSSI.  
The minimum receive signal level is recorded to aid in troubleshooting problem RF links.  
Radio links with high MIN RSL numbers and intermittent performance are probably  
experiencing interference, while links with low MIN RSL numbers have improperly  
engineered paths or excess system losses. A system with MIN RSL numbers varying widely  
indicates an intermittent installation problem such as loose connectors, damaged coax or  
lightning arrestors, or water contaminated feedlines.  
Link errors (LNK ERR) represent errored seconds across the wireless link, and are generally an indication of  
path or interference problems.  
The link error count and minimum received signal level for the most recent 24 hours are recorded in  
15-minute increments and displayed on the right side of the page. The left side of the page displays the 24  
hour totals for the most recent 7 days.  
Press <N> to view the next 8 hours worth of 15-minute totals and <P> to view the  
previous 8 hours.  
Press <L> from any menu in the TRACER 4106/4206 VT100 menu structure to access the  
TRACER Link Performance History menu page.  
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Section 5 User Interface Guide  
>T1X STATUS/CONFIGURATION/LOOPBACK  
The following menus for the T1x Status/Configuration/Loopback apply to all four  
available T1 interfaces (A through D).  
Figure 8 shows the T1x Status/Configuration/Loopback menu page, which displays a real-time graphical  
representation for the T1x link using data from both the local and remote TRACER 4106/4206 units. T1x  
operational configuration parameters and testing functions are configured from this menu.  
Figure 8. T1x Status/Configuration/Loopback  
>T1X STATUS/CONFIGURATION/LOOPBACK > T1X INTERFACE ALARMS  
Displays any active alarms on the T1 link (reported from both the local and remote TRACER 4106/4206  
units). These alarms include Red, Blue/AIS, Yellow, LOS, and bipolar violations (BPV). Table 2 briefly  
describes these alarms. See Section 6, Troubleshooting Guide, for more information on these alarms.  
Table 2. T1 Interface Alarms  
RED  
Activates when a local facility failure occurs.  
BLUE/AIS  
Activates when an incoming remote alarm is received from a connected T1 device. An AIS  
signal is an unframed All One signal that replaces the normal traffic signal  
YEL  
LOS  
BPV  
Activates when an incoming remote alarm is received from the T1 device indicating that a  
failure has occurred in the received direction.  
Activates when no T1 signal is present from the connected T1 equipment. LOS is  
activated after receiving 192 consecutive zeros.  
Activates when the incoming T1 stream presents bipolar violations (BPVs).  
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Section 5 User Interface Guide  
TRACER 4106/4206 System Manual  
>T1X STATUS/CONFIGURATION/LOOPBACK > T1X LINE BUILD OUT  
Configures the T1 for the appropriate line buildout, based on the distance to the T1 equipment. By default,  
the line buildout for the TRACER 4106/4206 is 0 dB/133 FT.  
>T1X STATUS/CONFIGURATION/LOOPBACK > ALARM REPORTING  
Determines whether the TRACER 4106/4206 unit will report active alarms. If set to DISABLED, no alarms will  
be displayed on this menu page. The ALARM REPORTING parameter is independently configured for the local  
and remote TRACER 4106/4206 units. When set to DISABLED, the front panel LED alarms are also disabled  
(OFF). By default, alarm reporting is set to ENABLED.  
>T1X STATUS/CONFIGURATION/LOOPBACK > SIGNALING  
Configures the framing format for the T1 link for both the local and remote TRACER 4106/4206 units. The  
TRACER 4106/4206 transports T1 data across the link (as long as the T1 signal is properly timed). Configure  
the framing format (using the SIGNALING menu) to enable the TRACER 4106/4206 to monitor incoming  
framing error events and indicate problems with the attached metallic service. The TRACER 4106/4206  
supports both extended superframe (ESF) and superframe (D4) framing formats. By default, the signaling  
method is set to ESF.  
>T1X STATUS/CONFIGURATION/LOOPBACK > LINE CODE  
Sets the line coding for the T1 link. The TRACER 4106/4206 supports bipolar eight-zero substitution (B8ZS)  
and alternate mark inversion (AMI) line coding. By default, the line code is set to B8ZS.  
>T1X STATUS/CONFIGURATION/LOOPBACK > LOOP/NORMAL STATE  
Controls the loop status of the T1 link. Activates/deactivates loopback conditions for testing purposes.  
>T1X STATUS/CONFIGURATION/LOOPBACK > LOOP/NORMAL STATE > NORMAL  
Defines the T1 link as normal data transport mode - there are no active loopbacks.  
>T1X STATUS/CONFIGURATION/LOOPBACK > LOOP/NORMAL STATE > LINK [LOCAL]  
Activates a loopback at the local TRACER 4106/4206 T1 framer towards the remote end of the wireless link  
(see Figure 9). Use the local LINK loopback to loop the data transmitted from the remote end of the link back  
across the radio link to the remote end of the link. This loopback tests the integrity of the radio link and all the  
associated digital and RF hardware.  
Figure 9. T1 Local Link Loopback  
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Section 5 User Interface Guide  
>T1X STATUS/CONFIGURATION/LOOPBACK > LOOP/NORMAL STATE > LINK [REMOTE]  
Activates a loopback at the remote TRACER 4106/4206 T1 framer towards the local end of the wireless link  
(see Figure 10). Use the remote LINK loopback to loop the data transmitted from the local end of the link  
across the radio link to the local end of the link. This loopback tests the integrity of the radio link and all the  
associated digital and RF hardware.  
Figure 10. T1 Remote Link Loopback  
>T1X STATUS/CONFIGURATION/LOOPBACK > LOOP/NORMAL STATE > LINE [LOCAL]  
Activates a loopback at the local TRACER 4106/4206 T1 framer towards the locally connected T1 equipment  
(see Figure 11). Use the local LINE loopback to test data path integrity from the local TRACER 4106/4206 unit  
to the connected T1 equipment.  
Figure 11. T1 Local Line Loopback  
>T1X STATUS/CONFIGURATION/LOOPBACK > LOOP/NORMAL STATE > LINE [REMOTE]  
Activates a loopback at the remote TRACER 4106/4206 T1 framer towards the connected T1 equipment at  
the remote end of the link (see Figure 12). Use the remote LINE loopback to test data path integrity from the  
remote TRACER 4106/4206 unit to the T1 equipment connected at the remote end of the link.  
Figure 12. T1 Remote Line Loopback  
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Section 5 User Interface Guide  
TRACER 4106/4206 System Manual  
>T1X PERFORMANCE HISTORY  
The following menus for the T1x Performance History apply to all four available T1  
interfaces (A through D).  
Figure 13 shows the T1x Performance History menu page, which displays detailed error statistics for the  
T1 link (from both the local and remote TRACER 4106/4206 units) in 15-minute and 24-hour increments.  
7
Days  
24  
Hours  
Figure 13. T1x Link Performance History  
T1 performance data is presented as Errored Seconds (ES) and Severely Errored Seconds (SES) on the T1  
link. The following events qualify as an ES–AIS, LOS or LOF Alarm Second, a single bipolar violation  
(BPV), excessive zero event, or a single parity bit. An SES is caused by an AIS, LOS or LOF Alarm  
Second, excessive BPVs, or framed parity bit errors causing a line bit error rate (BER) of 10-6.  
The error count for the most recent 24 hours are recorded in 15-minute increments and displayed on the  
right side of the page. The left side of the page displays the 24 hour totals for the most recent 7 days.  
Press <N> to view the next 8 hours worth of 15-minute totals and <P> to view the  
previous 8 hours.  
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TROUBLESHOOTING GUIDE  
Provides helpful information for troubleshooting common configuration problems for the  
TRACER 4106/4206.  
CONTENTS  
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Section 6 Troubleshooting Guide  
TRACER 4106/4206 System Manual  
1. OVERVIEW  
This troubleshooting guide provides recommended actions for various conditions of the TRACER 4106/4206  
system. The status LEDs (located on the front panel of the unit) provide information to help determine the  
necessary troubleshooting action. Recommended actions for resolving possible status LED indicators are  
contained in this guide.  
2. LED INDICATORS  
PWR LED  
If the PWR LED is not ON and solid green, it is an indicator that the TRACER 4106/4206 is not receiving  
adequate DC power.  
Recommended Actions:  
1. Verify that the power source is delivering between 21 and 60 VDC.  
2. Check the polarity of the power connection (referenced to ground) of both the TRACER 4106/4206 unit  
power supply connections.  
3. Check the internal fuse. The fuse is accessed from the rear panel of the unit. If this fuse is open,  
replace with a 1A, 250 V (2-inch) slow-blo fuse.  
TST LED  
The TST LED will blink once (amber) during the power-up sequence to indicate a self-test is in progress. If  
the TST LED is blinking or remains ON after 10 seconds, this indicates that the TRACER 4106/4206 unit has  
failed the self-test. This is an internal failure, and ADTRAN technical support should be contacted.  
RF DOWN LED  
If the RF DOWN LED is ON (solid red), it is an indicator that there is a problem with the RF receive path  
from the remote TRACER 4106/4206.  
Recommended Actions:  
1. Verify that one end of the link is configured as Plan A and the other end as Plan B, and that both ends  
have the same bandplan number (ex. A1 and B1). See >TRACER System Options > RF Bandplan on  
page 48 for further details.  
2. Verify that both ends of the link are configured for the same number of active T1 ports. See >TRACER  
System Options >Active T1 Ports on page 48 for more details.  
3. Measure the RSSI voltage and consult the RSSI Calibration sheet included with the unit. If the voltage  
level corresponds to a received signal power level that agrees with the calculated receive signal level, go  
to Step 8.  
4. Check the RF coaxial cable connection.  
5. Verify that the antenna polarization is the same at both ends of the RF signal transmit and receive path.  
6. Verify the RF signal path is clear.  
7. Check the integrity of the lightning arrestors.  
8. Check for possible interference at both ends of the link. If necessary, change polarization and/or  
bandplans at both ends.  
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Section 6 Troubleshooting Guide  
RF LOW LED  
If the RF LOW LED is ON (solid red), it is an indicator that the received signal is approaching 0 V of RSSI.  
This condition is typically indicative of a path or installation problem.  
Recommended Actions:  
1. Verify the far-end transmitter power setting is the value that the link planning budget requires.  
2. Check all coaxial cable connectors for solid connections. Check for water and corrosion around any of  
the connectors. If water is apparent in the coaxial connectors, replace the coaxial cable and the  
connectors, making sure to properly weatherproof the replacements.  
3. Verify the RF signal path by verifying the antenna alignment.  
4. Check the integrity of lightning arrestors.  
T1 Interface Alarm LEDs  
If the ALARM LED is ON (solid red), it is an indication that the TRACER 4106/4206 is detecting an active T1  
alarm. To identify the T1 interface in alarm and the specific alarm present, display the T1(X) STATUS screens  
and check the T1(X) INTERFACE ALARMS field.  
Recommended Actions:  
1. Display the T1(X) STATUS screen and check the T1(X) INTERFACE ALARM field to identify the active alarm.  
2. Follow the steps below for the appropriate alarm.  
LOS Alarm (Red Alarm)  
LOS ALARM is an indication that the TRACER 4106/4206 may be unable to detect a viable T1 received  
signal from the connected T1 equipment. This error may be due to a degraded signal or no signal, or may  
be caused by improper framing.  
Recommended Actions:  
1. Verify that the T1 cable is connected to the T1 interface on the TRACER 4106/4206.  
2. Verify the connections at the opposite end of the T1 cable.  
3. Verify that the framing mode (D4 or ESF) is the same for both the TRACER 4106/4206 and the T1  
equipment.  
Yellow Alarm  
A Yellow Alarm is generated by the attached equipment. When the attached equipment’s T1 interface is  
in Red Alarm, the TRACER 4106/4206 generates a Yellow Alarm.  
Recommended Actions:  
1. Follow the troubleshooting steps for Red Alarm, but do so at the attached equipment.  
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Section 6 Troubleshooting Guide  
TRACER 4106/4206 System Manual  
Blue Alarm  
A remote alarm (alarm indication signal or AIS) is generated by the attached equipment. The root  
cause must be determined at the attached equipment. A typical cause of a blue alarm is a lack of input  
to a CSU.  
Recommended Actions:  
1. Verify the input to any attached data equipment.  
BPV  
Bipolar violations (BPVs) indicate an improper configuration or faulty wiring.  
Recommended Actions:  
1. Verify the TRACER 4106/4206 unit and the attached equipment are configured for the same line  
coding (B8ZS or AMI).  
2. Verify the cable connections for the T1 interface are solid.  
3. RF ERRORS  
RF errors can range from a nonviable microwave path to loose RF connectors.  
Nonviable path conditions could be caused by physical obstructions such as buildings, moutainous terrain,  
trees, etc., as well as other physical limitations such as excessive path distances and in-band RF  
interference. These types of errors are remedied by performing a detailed line-of-site microwave path  
study to determine whether a microwave link is feasible for the terrain and environment under  
consideration.  
If after performing a microwave path study the system is still not operational, ensure that the antennas are  
properly aligned. Note that alignment must be achieved in both elevation and azimuth for optimal link  
performance. The TRACER 4106/4206 can be used to aid in antenna alignment by looking at the RX  
POWER “fuel gauge” on the System Status or System Option menu pages or by measuring the DC voltage  
(relative to ground) at the RSSI front panel test jack. Optimal antenna alignment is achieved by peaking the  
front panel RSSI voltage or the the Rx Power "fuel gauge" on the TRACER 4106/4206 terminal diplay.  
Consult the ADTRAN TRACER Data Sheet included with the unit to verify that the actual receive signal  
level agrees with the calculated receive signal.  
An RSSI test point, located on the front panel, provides a DC voltage level (relative to the GND test point)  
that corresponds to the amount of signal being received from the far end's transmitter. The voltage at this  
test point can vary from approximately 0 to 5 Volts DC. An RSSI Calibration sheet is shipped with the  
system to provide the installer a cross-reference between actual received signal level (in dBm) and RSSI  
voltage. This sheet is useful for verifying link budget calculations and ensuring proper equipment  
installation.  
4. STEP-BY-STEP TROUBLESHOOTING  
The logical troubleshooting flow presented in this section can be used to set up your TRACER 4106/4206  
system, and also to diagnose a previously installed system. Please contact ADTRAN Technical support at  
any stage during installation and/or troubleshooting if you require assistance.  
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TRACER 4106/4206 System Manual  
Section 6 Troubleshooting Guide  
5. INSTALLING/TROUBLESHOOTING THE TRACER HARDWARE  
1. Perform a detailed path profile and link budget for each TRACER 4106/4206 microwave link. A  
thorough path study can be used to estimate signal power budgets, fade margins at each receiver,  
identity potential line-of-site obstacles, properly size antenna dishes, and determine minimum  
antenna dish heights above the earth.  
ADTRAN provides a wireless link planning tool on our website. This link budget tool is  
constructed as an easy to use spreadsheet with dropdown menus so that the user can  
quickly change any of the link parameters (antenna size, coaxial cable type and length,  
frequency band, link distance, etc) and instantly see how the microwave path availability is  
affected. This tool is available at www.adtran.com/wireless and can be used online or  
downloaded for standalone use.  
2. Setup all of the TRACER hardware on a workbench. ADTRAN recommends that the actual cables  
used in the permanent installation be used in the workbench setup. A rigorous workbench  
“simulation” of the link will help alleviate and avoid time-consuming errors.  
3. Examine the PLAN A and PLAN B LEDs on the front panel of each unit. These LEDs indicate the  
frequency plan for each TRACER 4106/4206 unit. The frequency plan (Plan A, Plan B) LED  
should be the opposite on the TRACER 4106/4206 units.  
4. Verify that both ends of the link are configured for the same RF Bandplan (1, 2, or 3). See  
5. Verify that both ends of the link are configured for the same number of active T1 ports. See  
6. Attach the RF coaxial cables to be used in the permanent installation to the N-type connectors on  
the back of the TRACER 4106/4206 unit. Attach the other end of the coaxial cable(s) to an RF  
power meter or spectrum analyzer, if either is available. The power measured by the meter/analyzer  
will be the RF power available at the input of the antenna. The TRACER 4106/4206 unit is  
programmed at the factory to output approximately 100 mW (20 dBm) of RF power. The actual  
power level measured by the meter/analyzer will be less than 100 mW due to RF losses through the  
coaxial cable, and is a function of the cable type and length being used. In any event, the power  
level at the output of the coaxial cable should be a significant fraction of 100 mW. A power  
meter/analyzer reading that is not on the order of at least tens-of-milliwatts could be an indication  
of any combination of either unsuitable RF, or faulty, or unreasonably long coaxial cable.  
7. Resolve all RF coaxial cabling errors before proceeding.  
8. Attach the RF coaxial cables to a high-quality attenuator, if possible. If you do not have an  
attenuator, attach the coaxial cables to the antennas to be used in the permanent installation. If the  
installation antennas are not available, small, inexpensive dipole or patch antennas can be used for  
verification purposes. If an adjustable attenuator is being used, dial in the amount of attenuation  
that corresponds to the path loss value expected for the microwave link in which the TRACER  
hardware will be installed. The path loss value can be calculated from a knowledge of the path  
length, or provided by a path study. Remember to subtract both antenna gain values from the  
attenuator level if these values have not already be accounted for.  
9. After setting up the RF pieces, examine the RF DOWN LED on the front panel of each  
TRACER 4106/4206 unit. If the RF DOWN LED is illuminated (red), the corresponding  
TRACER 4106/4206 is not receiving a suitable RF signal from the other TRACER 4106/4206 unit.  
In this case, the receiving TRACER 4106/4206 is either receiving a very weak signal, or no signal  
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TRACER 4106/4206 System Manual  
at all. If the RF DOWN LED is not illuminated, then the TRACER 4106/4206 units are receiving a  
suitable RF signal. Suitable RF power levels for low error rate communication will range from  
-30 dBm to -100 dBm (TRACER 4106) or -30 dBm to -96 dBm (TRACER 4206) measured at the  
N-type connector input on the TRACER 4106/4206 unit.  
10. Resolve any signal level issues before proceeding.  
11. Examine the RF LOW LED on the front panel of each TRACER 4106/4206. If this LED is  
illuminated, then the TRACER 4106/4206 is receiving a relatively weak signal; however, if the RF  
DOWN LED is not illuminated, then the received signal is being suitably processed by the  
TRACER 4106/4206 system. If you are receiving a weak signal (RF LOW is ON), please verify  
that the weak signal is not being caused by a faulty cable, an insufficiently tightened cable, or  
some other installation-related problem. Also, make sure an unreasonably large attenuation value  
has not been selected if you are using an attenuator on a workbench setup.  
proper free-space attenuation value (in dB) based on the estimated length of the microwave path.  
Remember to subtract both antenna gains (local and remote) from the attenuator setting.  
12. Initiate a line loopback on the local TRACER 4106/4206 unit and run a test pattern from the  
connected T1 equipment. This will verify the connection between the T1 equipment and the local  
TRACER 4106/4206 unit.  
13. Command a link loopback on the remote TRACER 4106/4206 unit and run a test pattern from the  
connected T1 equipment. This will verify the data path across the RF link.  
External pattern generators are required to test data path integrity. A T1 BERT tester is  
suggested.  
Installing/Configuring T1 Hardware  
1. If possible, attach any or all of the intended T1 hardware to the TRACER 4106/4206 units using  
the same workbench setup. This step offers the perfect opportunity to configure your T1 hardware  
for proper functioning with the TRACER hardware.  
2. To significantly reduce the probability of an unsuccessful field installation, resolve any remaining  
T1 equipment-to-TRACER 4106/4206 configuration issues before field installation. See pages 57  
and 58 for more information on resolving T1 interface alarm conditions.  
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