Wireless Seismic 00106 Wireless remote seismic disturbance sensor User Manual DeploymentGuide

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Document Description	User Manual Part 2
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C. Radio Specifications
Antenna Specifications
Table C–1 Antenna Specifications, 6 dBi (65-0179) (cont.)
Item
Description
Maximum Power
100 Watts
Connector
N-Style Jack
Height
10.6"
Weight
0.5 lbs
Horizontal Beamwidth
360°
Rated Wind Velocity
135 mph
Operating Temperature
Radiation Patterns
-22°F to 158 °F
-30 to 70 °C
Table C–2 Antenna Specifications, 13 dBi (65-0177)
Parameter
Frequency Range
Min
Typ
5150 MHz
5825 MHz
Gain
19 dBi
Horizontal Beamwidth
16 Deg
Vertical Beamwidth
16 Deg
Front to Back
30 dB
Cross Polarization
25 dB
Max
VSWR
•
5150-5350MHz
•
5470-5825MHz
2.0:1
1.5:1
Impedance
50 OHM
Input Power
100W
Operating Temperature
-40 ºF
-40 °C
158 °F
70 °C
Pole Size
1 in
25 mm
2.5 in
64 mm
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C. Radio Specifications
Antenna Specifications
Table C–2 Antenna Specifications, 13 dBi (65-0177) (cont.)
Parameter
Min
Typ
Weight
Max
17.6 oz
0.5 kg
Dimension
7.5 x 7.5 x 0.8 in
190 x 190 x 20 mm
(L x W x Thick)
Bracket Tilt
45 Deg
Radiation Pattern
Table C–3 Antenna Wind Loading, 13 dBi (65-0177)
Parameter
Wind Loading
Area
100 mph
161 kph
125 mph
201 kph
56 sq in
14 lbs
22 lbs
0.04 sq m
6.4 kg
10 kg
C.1.2 Rocket Recorder Antenna
The recorder station backhaul using the Ubiquiti Rocket radio supports a 13 dBi antenna. This
antenna is a 2x2 Dual Polarity MIMO Omnidirectional Antenna that provides 360 degree
coverage.
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C. Radio Specifications
Antenna Specifications
Figure C–3 13 dBi Antenna (65-0178)
The supported recorder antenna specifications are as follows:
Table C–4 Antenna Specifications, 13 dBi (65-0178)
Item
Description
Frequency Range
5.45 to 5.85 GHz
Gain
13 dBi
Elevation Beamwidth
7 deg
Max VSWR
1.5:1
Downtilt
2 deg
Dimensions
6.2 x 3.8 x 32.8 in
LxWxH
158 x 98 x 834 mm
Weight
1 lb 13 oz
(including pole mount)
820 g
Wind Survivability
Radiation Patterns
125 mph
201 kph
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C. Radio Specifications
Antenna Specifications
Table C–4 Antenna Specifications, 13 dBi (65-0178) (cont.)
Item
Wind Loading
Description
Radiation Patterns
10 lb @ 100 mph
4.5 kg @ 161 kph
Polarization
Dual Linear
Cross-pol Isolation
25 Db min
ETSI Specification
EN 302 326 DN2
Mounting
Universal pole mount
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C. Radio Specifications
Antenna Specifications
C.1.3 NanoStation Recorder/Line Station Antenna
The recorder or line station backhaul using the Ubiquiti NanoStation M5 radios do not use an
external antenna; the NanoStation M5 has an integrated 14 dBi dual-polarity antenna.
The NanoStation integrated antenna specifications are as follows:
Table C–5 NanoStation Integrated Antenna Specifications
Item
Description
Model
NSM5/+locoM5 integrated
Frequency Range
Radiation Patterns
5745 to 5825 MHz (US)
5170 to 5875 MHz (INTL)
Cross Pol Isolation
20 dB Minimum
Gain
13 dBi
Beamwidth
45° (H-pol)
45° (V-pol)
45° (Elevation)
Max VSWR
1.4:1
Polarization
Dual Linear
Maximum Power
5.5 Watts
Maximum Power
5.5 Watts
Connector
N-Style Jack
Height
10.6"
Weight
0.5 lbs
Horizontal
Beamwidth
360°
Rated Wind Velocity
135 mph
Operating
Temperature
-22°F to 158 °F
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-30 to 70 °C
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C. Radio Specifications
Radio Specifications
Table C–5 NanoStation Integrated Antenna Specifications (cont.)
Item
Description
Radiation Patterns
C.2 Radio Specifications
This section provides radio specifications. The following radios are used in the backhaul:
156
Bullet – 2.4 GHz High Power 802.11N Outdoor Radio System
See “Bullet Line Station Radios” on page 157
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C. Radio Specifications
Radio Specifications
Rocket – 900 MHz High Power 2x2 MIMO AirMax TDMA BaseStation
See “Rocket Recorder Radios” on page 159
NanoStation M5 – 5.8 GHz, High power, 2x2 MIMO AirMax TDMA PoE station with
integrated 14 dBi dual-polarity antenna.
See “NanoStation Recorder/Line Station Radios” on page 160
C.2.1 Bullet Line Station Radios
The specifications for the Ubiquiti Bullet line station radio are as follows:
Table C–6 Bullet Line Station Radio Specifications (56-0019 US, 56-0024 Intl)
Item
Description
System Information
Processor Specs
Atheros MIPS 24KC, 400 MHz
Memory Information
32 MB SDRAM, 8 MB Flash
Networking Interface
(1) 10/100 Ethernet Port
Regulatory / Compliance Information
Wireless Approvals
FCC Part 15.247, IC RS210, CE
RoHS Compliance
Yes
Physical / Electrical / Environmental
Dimensions
7.5 x 1.8 in
(length x width)
190 x 46 mm
Weight
6.9 oz
196 g
Enclosure Characteristics
Powder Coated Aluminum
Antenna Connector
N-Type Connector (male)
Power Supply
24V, 0.5A PoE Adapter (included)
Power Method
Passive Power over Ethernet (pairs 4, 5+; 7, 8 return)
Max. Power Consumption
6 Watts
Operating Temperature
-40 to 176 °F
-40 to 80 °C
Operating Humidity
5 to 95% Condensing
Shock and Vibration
ETSI300-019-1.4
Software Information
Modes
Station, Access Point, AP Repeater
Services
SNMP, DHCP, NAT
Utilities
Site Survey with Preferred SSID, Antenna Alignment
Tool, Discovery Utility
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C. Radio Specifications
Radio Specifications
Table C–6 Bullet Line Station Radio Specifications (56-0019 US, 56-0024 Intl) (cont.)
Item
Description
Security
WEP/WPA/WPA2
QoS
802.11e / WMM Support
Statistical Reporting
Ethernet Activity, Uptime, Packet Success/Errors
Operating Frequency
5725 to 5850 (USA)
5170 to 5825 (International)
Output Power
25 dBm
Range Performance
31+ mi
50+ km
(Outdoor - Antenna Dependent)
The power specifications for the Ubiquiti Bullet line station radio are as follows:
Table C–7 Bullet Line Station Radio Power Specifications (56-0019 US, 56-0024 Intl)
158
RX Power Specifications
Avg. TX
Tolerance
Data Rate
Sensitivity
Tolerance
1-24 Mbps
25 dBm
+/-2 dB
24 Mbps
-83 dBm
+/-2 dB
36 Mbps
23 dBm
+/-2 dB
36 Mbps
-80 dBm
+/-2 dB
48 Mbps
21 dBm
+/-2 dB
48 Mbps
-77 dBm
+/-2 dB
54 Mbps
20 dBm
+/-2 dB
54 Mbps
-75 dBm
+/-2 dB
MCS0
25 dBm
+/-2 dB
MCS0
-96 dBm
+/-2 dB
MCS1
25 dBm
+/-2 dB
MCS1
-95 dBm
+/-2 dB
MCS2
25 dBm
+/-2 dB
MCS2
-92 dBm
+/-2 dB
MCS3
25 dBm
+/-2 dB
MCS3
-90 dBm
+/-2 dB
MCS4
24 dBm
+/-2 dB
MCS4
-86 dBm
+/-2 dB
MCS5
22 dBm
+/-2 dB
MCS5
-83 dBm
+/-2 dB
MCS6
20 dBm
+/-2 dB
MCS6
-77 dBm
+/-2 dB
MCS7
19 dBm
+/-2 dB
MCS7
-74 dBm
+/-2 dB
11a
Data Rate
11n / airMAX
11n / airMAX
11a
TX Power Specifications
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C. Radio Specifications
Radio Specifications
C.2.2 Rocket Recorder Radios
The specifications for the Ubiquiti Rocket recorder radio are as follows:
Table C–8 Rocket Recorder Radio Specifications (15-0052 US, 15-0054 Intl)
Item
Description
System Information
Processor Specs
Atheros MIPS 24KC, 400MHz
Memory Information
64MB SDRAM, 8MB Flash
Networking Interface
2 X 10/100 BASE-TX (Cat. 5, RJ-45) Ethernet
Regulatory / Compliance Information
Wireless Approvals
FCC Part 15.247, IC RS210, CE
RoHS Compliance
YES
Physical / Electrical / Environmental
Dimensions
6.7 x 3.1 x 1.2 in
(length, width, height)
17 x 8 x 3cm
Weight
1.6 lb
0.5kg
Enclosure Characteristics
Outdoor UV Stabilized Plastic
RF Connector
2x RP-SMA and 1x SMA (Waterproof)
Mounting Kit
Pole Mounting Kit included
Power Supply
24V, 1A POE Supply included
Power Method
Passive Power over Ethernet (pairs 4, 5+; 7, 8 return)
Max Power Consumption
8 Watts
Operating Temperature
-22 to 167 °F
-30 to 75 °C
Operating Humidity
5 to 95% Condensing
Shock and Vibration
ETSI300-019-1.4
Operating Frequency
5745 to 5825 (USA)
5470 to 5825 (International)
Output Power
Range Performance
27 dBm
up to 9.3 miles
up to 15 km
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C. Radio Specifications
Radio Specifications
The power specifications for the Ubiquiti Rocket radio are as follows:
Table C–9 Rocket Recorder Radio Power Specifications (15-0052 US, 15-0054 Intl)
RX Power Specifications
Avg. TX
Tolerance
Data Rate
Ave. TX
Tolerance
6-24 Mbps
36 Mbps
27 dBm
+/-2 dB
6-24 Mbps
-94 dBm min
+/-2 dB
25 dBm
+/-2 dB
36 Mbps
-80 dBm
+/-2 dB
48 Mbps
23 dBm
+/-2 dB
48 Mbps
-77 dBm
+/-2 dB
54 Mbps
22 dBm
+/-2 dB
54 Mbps
-75 dBm
+/-2 dB
MCS0
27 dBm
+/- 2 dB
MCS0
-96 dBm
+/- 2 dB
MCS1
27 dBm
+/- 2 dB
MCS1
-95 dBm
+/- 2 dB
MCS2
27 dBm
+/- 2 dB
MCS2
-92 dBm
+/- 2 dB
MCS3
27 dBm
+/- 2 dB
MCS3
-90 dBm
+/- 2 dB
MCS4
26 dBm
+/- 2 dB
MCS4
-86 dBm
+/- 2 dB
MCS5
24 dBm
+/- 2 dB
MCS5
-83 dBm
+/- 2 dB
MCS6
22 dBm
+/- 2 dB
MCS6
-77 dBm
+/- 2 dB
MCS7
21 dBm
+/- 2 dB
MCS7
-74 dBm
+/- 2 dB
MCS8
27 dBm
+/- 2 dB
MCS8
-95 dBm
+/- 2 dB
MCS9
27 dBm
+/- 2 dB
MCS9
-93 dBm
+/- 2 dB
MCS10
27 dBm
+/- 2 dB
MCS10
-90 dBm
+/- 2 dB
MCS11
27 dBm
+/- 2 dB
MCS11
-87 dBm
+/- 2 dB
MCS12
26 dBm
+/- 2 dB
MCS12
-84 dBm
+/- 2 dB
MCS13
24 dBm
+/- 2 dB
MCS13
-79 dBm
+/- 2 dB
MCS14
22 dBm
+/- 2 dB
MCS14
-78 dBm
+/- 2 dB
MCS15
21 dBm
+/- 2 dB
MCS15
-75 dBm
+/- 2 dB
11a
Data Rate
11n / airMAX
11n / airMAX
11a
TX Power Specifications
C.2.3 NanoStation Recorder/Line Station Radios
The specifications for the Ubiquiti NanoStation™ radio are as follows:
Table C–10 NanoStation Radio Specifications (56-0035 US, 56-0032 Intl)
Item
Description
System Information
Processor Specs
Atheros MIPS 24KC, 400MHz
Memory Information
32MB SDRAM, 8MB Flash
Networking Interface
1 X 10/100 BASE-TX (Cat. 5, RJ-45) Ethernet
Regulatory / Compliance Information
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C. Radio Specifications
Radio Specifications
Table C–10 NanoStation Radio Specifications (56-0035 US, 56-0032 Intl) (cont.)
Item
Description
Wireless Approvals
FCC Part 15.247, IC RS210, CE
RoHS Compliance
YES
Physical / Electrical / Environmental
Dimensions
6.42 x 1.22 x 3.15 in
(length, width, height)
163 x 31 x 80mm
Weight
0.40 lb
0.18kg
Enclosure Characteristics
Outdoor UV Stabilized Plastic
Mounting Kit
Pole Mounting Kit included
Power Supply
24V, 0.5A POE Supply included
Power Method
Passive Power over Ethernet
(pairs 4, 5+; 7, 8 return)
Max Power Consumption
5.5 Watts
Operating Temperature
-22 to 167 °F
-30 to 75 °C
Operating Humidity
5 to 95% Condensing
Shock and Vibration
ETSI300-019-1.4
Operating Frequency
5745 to 5825 (USA)
5170 to 5875 (International)
Output Power
27 dBm
Range Performance
31+ mile
50+ km
The power specifications for the Ubiquiti NanoStation M5 radio are as follows:
Table C–11 NanoStation Radio Power Specifications (56-0035 US, 56-0032 Intl)
R01.i
RX Power Specifications
Data Rate
Avg. TX
Tolerance
Data Rate
6-24Mbps
36 Mbps
23 dBm
+/-2 dB
6-24Mbps
-83 dBm min
+/-2 dB
21 dBm
+/-2 dB
36 Mbps
-80 dBm
+/-2 dB
48 Mbps
19 dBm
+/-2 dB
48 Mbps
-77 dBm
+/-2 dB
54 Mbps
18 dBm
+/-2 dB
54 Mbps
-75 dBm
+/-2 dB
11a
11a
TX Power Specifications
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Ave. TX
Tolerance
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C. Radio Specifications
Radio Specifications
Table C–11 NanoStation Radio Power Specifications (56-0035 US, 56-0032 Intl) (cont.)
162
RX Power Specifications
MCS0
23 dBm
+/- 2 dB
MCS0
-96 dBm
+/- 2 dB
MCS1
23 dBm
+/- 2 dB
MCS1
-95 dBm
+/- 2 dB
MCS2
23 dBm
+/- 2 dB
MCS2
-92 dBm
+/- 2 dB
MCS3
23 dBm
+/- 2 dB
MCS3
-90 dBm
+/- 2 dB
MCS4
22 dBm
+/- 2 dB
MCS4
-86 dBm
+/- 2 dB
MCS5
20 dBm
+/- 2 dB
MCS5
-83 dBm
+/- 2 dB
MCS6
18 dBm
+/- 2 dB
MCS6
-77 dBm
+/- 2 dB
MCS7
17 dBm
+/- 2 dB
MCS7
-74 dBm
+/- 2 dB
MCS8
23 dBm
+/- 2 dB
MCS8
-95 dBm
+/- 2 dB
MCS9
23 dBm
+/- 2 dB
MCS9
-93 dBm
+/- 2 dB
MCS10
23 dBm
+/- 2 dB
MCS10
-90 dBm
+/- 2 dB
MCS11
23 dBm
+/- 2 dB
MCS11
-87 dBm
+/- 2 dB
MCS12
22 dBm
+/- 2 dB
MCS12
-84 dBm
+/- 2 dB
MCS13
20 dBm
+/- 2 dB
MCS13
-79 dBm
+/- 2 dB
MCS14
18 dBm
+/- 2 dB
MCS14
-78 dBm
+/- 2 dB
MCS15
17 dBm
+/- 2 dB
MCS15
-75 dBm
+/- 2 dB
11n / airMAX
11n / airMAX
TX Power Specifications
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D
D. LED Indicators
This chapter provides the possible LED status and error indicators for WRUs and LIUs.
The WRU has three possible states; undeployed, deploying, and deployed.
When tilting the WRU to deploy, re-acquire GPS, or check status, tilt the WRU geophone
down until the LEDs light, and then return the WRU to the horizontal position as shown
in the following figure:
Figure D–1 WRU Down-Tilt Action
When tilting the WRU to undeploy, tilt the WRU geophone up until the LEDs light, and
then return the WRU to the horizontal position as shown in the following figure:
Figure D–2 WRU Up-Tilt Action
D.1 WRU Undeployed
When the WRU is undeployed, all of the LEDs are off. A vertical tilt has the following
effect:
RT System 2 v2.3
Geophone Down – WRU deployment
Geophone Up – No effect; nothing happens
163
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D. LED Indicators
WRU Undeployed
Table D–1 WRU LED Indications, Undeployed
LED Indicators
Summary
Description
Undeployed
If no LEDs are on (lit up) on an undeployed
WRU, it can be one of the following scenarios:
Dead batteries
•
Unit undeployed
•
Batteries dead
When you do a tilt test (geophone down) on
an undeployed WRU with no LEDs on, the
following may occur:
•
An Undeployed WRU deploys and begins
the self tests
•
A WRU with dead batteries will continue
to display no lit LEDs
•
A WRU is defective if no LEDs turn on
after battery replacement.
NOTE: Battery state is shown in the RT
System 2 user interface tables. For
example, the Ground Equipment
Table.
Geo down tilt
detected
Tilt the WRU with the geophone pointing
down.
Deploy
After a few seconds, all of the LEDs light up
solid.
Place the WRU flat on the ground to within
five seconds to begin the deployment
process:
•
Battery fuse self-test
•
Battery test
•
THD test
•
Geophone test
•
GPS fix
•
Radio test
After removing both batteries from an undeployed WRU, and then replacing BAT A, BAT B, or
both, when the first battery is connected, the WRU goes through the power on LED sequence
and then remains in the undeployed state.
The following table shows the LED power-on sequence for an undeployed WRU:
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D. LED Indicators
WRU Deploying
Table D–2 WRU LED Indications, Undeployed Power-On Sequence
LED Indicators
Summary
Description
Hard reset
The LEDs light up in clockwise rotation
starting with the A battery LED and ending
with the A battery LED, B battery LED, or
both.
(power on)
D.2 WRU Deploying
When the WRU begins deploying, the following tests are executed:
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D. LED Indicators
WRU Deploying
BAT A and BAT B connected
Ɣ
Ɣ
Ɣ
Ɣ
Ɣ
Ɣ
Battery fuse test
Battery test
THD test
Geophone Test
GPS test
Radio Test
BAT A or BAT B connected
Ɣ
Ɣ
Ɣ
Ɣ
Ɣ
Battery test
THD test
Geophone Test
GPS test
Radio Test
The following table shows the possible LED indicators for a WRU that is deploying:
Table D–3 WRU LED Indications, Deploying Sequence
LED Indicators
Summary
Description
Dead batteries
If no LEDs are on (lit up) during the deploying
state, it can be one of the following scenarios:
Defective Unit
•
Batteries dead
•
Defective Unit
When you do a tilt test (geophone down) on a
WRU with no LEDs on, the following may
occur:
•
A WRU with dead batteries will continue
to display no lit LEDs
•
A WRU is defective if no LEDs turn on
after battery replacement.
NOTE: Battery state is shown in the RT
System 2 user interface tables. For
example, the Ground Equipment
Table.
Battery fuse test
failure (A)
When both batteries are installed, the battery
fuse test is performed.
A Solid for 5 seconds
BAT Solid
A is solid for 5 seconds
BAT remains solid
166
A solid BAT LED indicates that the WRU
detected a bad fuse during deployment and
returned to the undeployed state. When a
battery fuse test fails, the WRU will not
deploy.
Both batteries must be present for the battery
fuse test to execute. This allows you to deploy
a WRU by removing the battery connected to
the bad fuse prior to the deployment tilt
action.
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D. LED Indicators
WRU Deploying
Table D–3 WRU LED Indications, Deploying Sequence (cont.)
LED Indicators
Summary
Description
Battery fuse test
failure (B)
When both batteries are installed, the battery
fuse test is performed.
B Solid for 5 seconds
BAT Solid
A solid BAT LED indicates that the WRU
detected a bad fuse during deployment and
returned to the undeployed state. When a
battery fuse test fails, the WRU will not
deploy.
B is solid for 5 seconds
Both batteries must be present for the battery
fuse test to execute. This allows you to deploy
a WRU by removing the battery connected to
the bad fuse prior to the deployment tilt
action.
BAT remains solid
Battery test
If both batteries are installed and their
capacities are above 9000 mAh, the following
occurs:
•
Battery in use LED (A or B) Flashes
•
The THD, GEO, GPS, and RAD self-tests
are performed
NOTE: The general battery test provides a
visual indication if the WRU has one
or more missing, malfunctioning, or
low capacity batteries and provides
45 seconds to correct the problem
before proceeding to the remainder
of the deployment self-tests.
Battery failure
If one or both batteries have sub-9000mAh
capacities or are not installed, the following
occurs:
•
Solid – A and or B
•
Flashing – BAT LED flashes for 45
seconds
Install one or two batteries with capacities
above 9000 mAh during the 45 second
window. The following occurs:
R01.i
•
Flashing BAT LED turns off
•
Battery in use LED (A or B) flashes for
approximately 2 seconds
•
The THD, GEO, GPS, and RAD self-tests
are performed
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D. LED Indicators
WRU Deploying
Table D–3 WRU LED Indications, Deploying Sequence (cont.)
LED Indicators
Summary
Description
If no changes are made to the batteries
within the 45 second window, The following
occurs:
Self-test starting
•
Flashing BAT LED turns off
•
Battery in use LED (A or B) flashes for
approximately 2 seconds
•
The THD, GEO, GPS, and RAD self-tests
are executed
If a WRU self-test fails, the WRU will continue
to the next test.
Flashing:
•
MODE
•
BAT
•
GEO
•
GPS
•
RAD
NOTE: Error LEDs remain persistent
throughout the self-discovery process
and are turned off upon completion.
Continue (lay flat to
move to next test)
To skip a test during the self-test process, tilt
the WRU geophone down until you see this
triangle of LEDs. Tilt the WRU back to
horizontal to continue.
Solid:
•
MODE
•
GEO
•
GPS
NOTE: The GPS test cannot be skipped.
Geophone test in
progress
Flashing:
•
MODE
•
GEO
NOTE: Performing a vertical geophone down
tilt during the geophone test causes
the WRU to go into the
communications repeater mode.
WRU repeaters are used to solve
terrain or distance related
communication problems between
WRUs.
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D. LED Indicators
WRU Deploying
Table D–3 WRU LED Indications, Deploying Sequence (cont.)
LED Indicators
Summary
THD test failure
Description
Solid:
•
BAT
•
GEO
•
GPS
•
RAD
NOTE: No LEDs are affected when the THD
test starts or when it passes.
Geophone test
failure
Acquiring GPS fix
GEO Solid
NOTE: For a multiple-channel geophone,
tests the first channel only.
Flashing:
•
MODE
•
GPS
NOTE: The WRU will attempt to get a 3meter GPS lock for up to 15 minutes.
During this time, the GPS LED
flashes. The WRU will not form until
the GPS lock is achieved. If the GPS
lock cannot be achieved, form by
serial number.
GPS test failure
GPS Solid
GPS fix not found
For a multiple-channel geophone, tests the
first channel only.
Neighbor discovery
in progress
Neighbor discovered
R01.i
Flashing:
•
MODE
•
RAD
Flashing:
•
•
MODE
•
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D. LED Indicators
WRU Deploying
Table D–3 WRU LED Indications, Deploying Sequence (cont.)
LED Indicators
Summary
Description
No neighbor
detected
RAD Solid
If this is the first WRU deployed, this is the
expected condition.
If power is removed from a WRU in the deploying state, the WRU stays in the deploying state
and restarts the deploying process when power is restored.
After removing both batteries from a deploying WRU, and then replacing BAT A, BAT B, or
both, when the first battery is connected, the WRU goes through the power on LED
sequence. If both batteries are connected, the battery fuse test is executed. If only one
battery is connected, the battery fuse test is skipped. The remainder of the self-tests are
then executed.
The following table shows the LED power-on sequence for an deploying WRU:
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D. LED Indicators
WRU Deploying
Table D–4 WRU LED Indications, Deploying Power-On Sequence
LED Indicators
Summary
Description
Hard reset
The LEDs light up in clockwise rotation
starting with the A battery LED and ending
with the A battery LED, B battery LED, or
both for 2 seconds.
(power on)
The A and B battery LEDs at the end of the
rotation indicate that one or both batteries
are above the minimum threshold of
9000mAh.
Finally, the MODE LED lights up for
approximately 5 seconds indicating that the
WRU is verifying its firmware integrity.
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D. LED Indicators
WRU Deployed
D.3 WRU Deployed
If the WRU is already deployed, a vertical tilt has the following effect:
Geophone Down – If Sleeping, takes three to four seconds to wake up. If in Standby or
Armed displays the battery status, deployment self-test status, and re-acquires the GPS
position.
Geophone Up – All lights light. If placed flat within 5 seconds, the WRU undeploys.
The following table shows how the LEDs light up during normal operation with no vertical tilt
for a deployed WRU.
Table D–5 WRU LED Indications, Deployed WRU, No Geophone Tilt
LED Indicators
Summary
Description
Undeployed
Dead Batteries
If no LEDs are on (lit up), it can be one of the
following scenarios:
Sleeping
•
WRU undeployed
•
Batteries dead
•
WRU Sleeping
•
WRU Awake, but unformed
NOTE: Battery state is shown in the RT
System 2 user interface tables. For
example, the Ground Equipment
Table.
Battery A in use
Battery B in use
A Flashing:
•
Battery A in use
•
WRU formed or Armed
B Flashing:
•
Battery B in use
•
WRU formed or Armed
The following table shows how the LEDs light up during a vertical tilt (geophone down) for a
deployed WRU.
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D. LED Indicators
WRU Deployed
Table D–6 WRU LED Indications, Deployed WRU, Geophone Down Tilt
LED Indicators
Summary
Description
Undeployed
Dead Batteries
If no LEDs are on (lit up) before tilting the
WRU, it can be one of the following scenarios:
Sleeping
•
WRU undeployed
•
Batteries dead
•
WRU Sleeping
•
WRU Awake, but unformed
When you do a tilt test (geophone down) on a
WRU with no LEDs on, the following may
occur:
•
An Undeployed WRU deploys and begins
the self tests
•
A WRU with dead batteries will continue
to display no lit LEDs
•
A Sleeping WRU goes back to the
deployed, unformed state and displays
the battery status and any self-tests that
failed during deployment (BAT, THD, GEO,
GPS, or RAD).
•
A WRU in the Awake unformed state
displays the battery status and any selftests that failed during deployment (BAT,
THD, GEO,GPS, or RAD).
NOTE: Battery state is shown in the
RT System 2 user interface tables.
For example, the Ground Equipment
Table.
Battery A in use
A Flashing:
•
Battery A in use
•
WRU formed or Armed
NOTE: Only when GPS position occurs at the
same time the battery status is
displayed.
Battery B in use
B Flashing:
•
Battery B in use
•
WRU formed or Armed
NOTE: Only when no self-test failures. Reacquire GPS position occurs at the
same time the battery status is
displayed.
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D. LED Indicators
WRU Deployed
Table D–6 WRU LED Indications, Deployed WRU, Geophone Down Tilt (cont.)
LED Indicators
Summary
Description
Re-acquire GPS
position
GPS Solid for up to 15 minutes
The deployed WRU can be in any of the
following states:
•
Unformed
•
Formed
NOTE: The battery status is displayed at the
same time the GPS position is reacquiring.
GPS position
acquired
GPS Flashing
Self test failure
The LED associated with the failed self-test is
solid. All four LEDs are solid only if all four
self-tests failed, or the THD self-test fails.
The Deployed WRU is in Standby
The LEDs are visible only during the
deployment process, and when the WRU is
tilted (geophone down) to check status after
the WRU is deployed.
Solid:
•
BAT
•
GEO
•
GPS
•
RAD
The following table shows how the LEDs light up during a vertical tilt (geophone up) for a
deployed WRU.
Table D–7 WRU LED Indications, Deployed WRU, Geophone Up Tilt
LED Indicators
Summary
Description
Geo tilt detected
Tilt the WRU with the geophone pointing up.
Undeploy
After a few seconds, all of the LEDs light up
solid.
Place the WRU flat on the ground within five
seconds to undeploy the WRU.
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D. LED Indicators
LIU Power-On
Table D–7 WRU LED Indications, Deployed WRU, Geophone Up Tilt (cont.)
LED Indicators
Summary
Undeploy successful
Description
Flashing:
•
•
MODE
•
After removing both batteries from a deployed WRU, and then replacing BAT A, BAT B, or
both, when the first battery is connected, the WRU goes through the power on LED
sequence. The WRU transitions to the Awake, unformed state. If the WRU is not formed
within 30 minutes, the WRU transitions to the Sleep state.
D.4 LIU Power-On
The LIU LEDs function independently from each other, and there can be a number of
combinations of LEDs that are on, off, or flashing. The following list shows the LEDs used to
indicate status:
Battery – A, B, BAT
Power, Mode – MODE
Discipline – MODE
Check Link Status – MODE, 1, 2, 3, and 4
Connection to Central – LNK
GPS Lock – GPS
Radio connection, communication with neighbor – RAD
The following table shows the LED power-on sequence for an LIU:
Table D–8 LIU LED Indications, Power-On Sequence
LED Indicators
R01.i
Summary
Description
Off
No lights
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D. LED Indicators
LIU Normal Operation
Table D–8 LIU LED Indications, Power-On Sequence (cont.)
LED Indicators
Summary
Description
Hard Reset LIU
The LEDs light up in clockwise rotation
starting and ending with the A battery LED in
the following cases:
The unit is verifying
the integrity of the
firmware.
•
When the batteries are attached
•
Anytime the unit resets itself
•
In between updating firmware
applications
MODE Solid for approximately 5 seconds
D.5 LIU Normal Operation
The following tables describe the possible Normal Mode LIU Status Indications:
176
“LIU LED Status Indications, Normal Mode” on page 177
“LIU LED Error Indications, Normal Mode” on page 179
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D. LED Indicators
LIU Normal Operation
Table D–9 LIU LED Status Indications, Normal Mode
LED Indicators
Summary
Description
On, Disciplined to GPS
MODE solid
Checking firmware
The MODE LED indicates that the integrity of the
downloaded firmware is being verified.
Battery A in use
A solid
Indicates Battery A in use powering LIU. Battery
Voltage is above depleted threshold.
Battery B in use
B solid
Indicates Battery B in use powering LIU. Battery
Voltage is above depleted threshold.
LIU connected to Central
LNK solid
GPS lock
GPS solid
GPS disciplined
R01.i
Flashing:
•
GPS flashes in the 1 s rhythm of the PPS
•
MODE flashes in the 1 s rhythm of the PPS
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D. LED Indicators
LIU Normal Operation
Table D–9 LIU LED Status Indications, Normal Mode (cont.)
LED Indicators
Summary
Description
Formed
RAD solid
Normal
Solid:
•
A/B
•
BAT
•
LNK (connected)
•
RAD (formed)
Flashing:
178
•
MODE
•
GPS
•
LNK (disconnected)
Main (ARM) processor is
upgrading its own firmware
BAT flashing
Main (ARM) processor is
upgrading the Power
Control (XMEGA) processor
firmware
LNK flashing
Main (ARM) processor is
upgrading the Radio
processor firmware
RAD flashing
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D. LED Indicators
LIU Normal Operation
Table D–10 LIU LED Error Indications, Normal Mode
LED Indicators
Summary
Description
On, no GPS discipline
MODE flashing every 1 second
Single battery failure
A:
Battery B in use
•
Off, or
Battery A below threshold
or disconnected
•
4 long flashes, then off (On 4.5s, off 2s) or
•
GPS PPS flash
B Solid
BAT:
•
4 long flashes, then off (On 4.5s, off 2s)
Single battery failure
A Solid
Battery A in use
B:
Battery B below threshold
or disconnected
•
Off, or
•
4 long flashes, then off (On 4.5s, off 2s) or
•
GPS PPS flash
BAT:
•
Both batteries below
threshold
A & B:
•
Off, or
–OR–
•
4 long flashes, then off (On 4.5s, off 2s) or
One below threshold and
one disconnected
•
GPS PPS flashes
BAT:
•
R01.i
4 long flashes, then off (On 4.5s, off 2s)
4 long flashes, then off (On 4.5s, off 2s)
No IP Address acquired
LNK off
LIU has IP Address, but no
communications with
Central
LNK flashing
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D. LED Indicators
Firmware Upgrade
Table D–10 LIU LED Error Indications, Normal Mode (cont.)
LED Indicators
Summary
Description
No GPS lock
GPS off
No GPS or less than 3 satellites
GPS lock, not disciplined
GPS on
GPS lock, but not disciplined
D.6 Firmware Upgrade
The following table describes the possible WRU and LIU LED indications during firmware
upgrade:
Table D–11 WRU and LIU LED Status Indications, Firmware Upgrade
LED Indicators
Summary
Description
Firmware upgrade
MODE Solid for approximately 5 seconds
During firmware upgrade, the MODE LED indicates
that each processor's new firmware is being
verified.
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D. LED Indicators
Firmware Upgrade
Table D–11 WRU and LIU LED Status Indications, Firmware Upgrade (cont.)
LED Indicators
Summary
Description
Firmware upgrade
BAT Flashing
The main processor is saving the new firmware for
all processors to non-volatile memory.
R01.i
The power control
processor's firmware is
being upgraded
GEO/LNK Flashing for approximately 15 seconds
The Radio processor's
firmware is being upgraded
RAD Flashing for approximately 1-2 seconds
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E
E. Weighted Base
This section describes the mast that uses weights to maintain stability.
E.1 Specifications
Tripod Weight = 50 lbs (22.73 kg)
Minimum mast height = 53” (includes 6” for mounting)
Base size = 48” (1.2m) x 48” (1.2m)
Supports up to 12 – 16” x 8” blocks
Pre-galvanized steel frame
Accepts up to 2.5” mast (not included)
Figure E–1 Weighted Mast
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E. Weighted Base
Hardware Supplied
E.2 Hardware Supplied
The following hardware is supplied with the tripod mast:
4 - Bolt, Carriage 1/4 - 20 x 3/4"
12 - Bolt, Carriage 1/4 - 20 x 5/8"
4 - Bolt, 1/4 - 20 x 3/4" Hex Head
4- Bolt, 1/4 - 20 x 1/2" Hex Head
24-Nut, 1/4 - 20
24 - Lock washer, 1/4 Int. tooth
E.3 Assembly Instructions
This section provides instructions and illustrations for assembly of the tripod.
Figure E–2 Tripod Assembly, Front View
To assemble the tripod:
Assemble one 244 Flange to the Center Support Plate using four 1/4-20 x 3/4" carriage
Bolts, Lock washers and Hex Nuts. Make sure to assemble the Bolts with the Heads on
the underside of the frame. Hex Nut should be on the top side of the frame.
Assemble Base Frame and Center Support Plate using twelve 1/4-20 x 5/8" carriage
Bolts, Lock washers and Hex Nuts. Make sure to assemble the Bolts with the Heads on
the underside of the frame. Hex Nut should be on the top side of the frame.
Assemble the four (4) Braces to the upper support flange using four 1/4-20x3/4 Hex
Head Bolts, Lock washers and Nuts.
Assemble the other end of the braces to the base frame using the four (4) 1/4-20 x 1/2"
Hex Head Bolts, Lock washers, and Nuts.
Insert Bolts into upper and lower flange.
Slide the mast (not included) into position and tighten securely and weigh.
Wade Antenna Ltd., Ontario, Canada
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F
F. Using a Compass
This chapter describes how to use a sighting compass. A sighting compass has the same
features as a baseplate compass, but adds a vertical mirror that allows you to view the
compass dial and the landmark at the same time.
Figure F–1 Sighting Compass (70-0067)
For a in-depth descriptions of using a compass with a map and setting the declination on
a compass see the following links:
http://www.compassdude.com/default.shtml
http://www.compassdude.com/compass-declination.shtml
http://www.rei.com/learn/expert-advice/navigation-basics.html
http://www.thecompassstore.com/howtouseyour.html
A compass needle points to the magnetic north pole which is not the same as true or
geographic north. The difference between magnetic and true north is called magnetic
declination. The declination value depends on your actual location on the Earth. Over
time, as the Earth’s magnetic field shifts, the declination values also shift.
Maps are drawn with true north at the top edge. When using a compass to navigate or
locate objects, you must adjust the readings to account for the angular difference
between true north ( ღ ) and magnetic north (MN). The declination value is marked on
topographical maps as shown in the following figure:
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F. Using a Compass
Figure F–2 Declination Indication on Map
However, because of the dynamic nature of the Earth’s magnetic field, old maps are
inaccurate. To obtain the most recent declination values, enter your map location at the
following link:
http://www.ngdc.noaa.gov/geomag-web/#declination
Placing magnetic objects near a compass can cause an incorrect reading
(deviation). Examples include:
NOTE
• Objects that contain steel and iron such as pocket knives, belt buckles,
vehicles, railroad tracks, and ore deposits in the Earth
• Objects that use magnets such as stereo speakers
• Electrical current in cables and overhead lines
To locate an object using a map and a compass:
R01.i
Place the long edge of the compass baseplate on the map, connecting the desired start
and end points. For example, the start point could be where you are standing [A], and
the end point [B] is where you want to locate the backhaul mast. The Direction of Travel
arrow should point towards the end point (mast location).
While holding the compass on the map, turn the Degree Dial until the Meridian /
Orienting Lines are parallel with the Meridian lines on the map. This is the same as
turning the Degree Dial until the Orienting Arrow points to north on the map.
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F. Using a Compass
Figure F–3 Compass and Map
186
Adjust for declination.
Ɣ
If you have an adjustable compass – Move the Orienting Arrow to the right or left by
the declination number. When you align the magnetic needle with the Orienting
Arrow, the declination is accounted for.
Ɣ
If you do not have an adjustable compass – Mark the declination on your compass
with a piece of tape. Align the magnetic needle with the tape mark.
Ɣ
Adjust the Orienting Arrow to the left or right. For example:
Ź
For a declination of 0, no adjustment is necessary.
Ź
For a declination of 9 (9 degrees East), move the Orienting Arrow (or place a
tape mark) to the right 9 degrees.
Ź
For a declination of -9 (9 degrees West), move the Orienting Arrow (or place a
tape mark) to the left 9 degrees.
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F. Using a Compass
Figure F–4 Compass Adjusted for
Declination
Pick up the compass and adjust the cover so the angle of the cover to the base is
between 45 and 70 degrees.
Hold the base of the compass in the palm of your hand. Keep the compass level. Turn
your entire body and the compass until the red end of the Magnetic Needle is aligned
with the red end (north end) of Orienting Arrow.
Figure F–5 Compass Adjusted for
Declination
R01.i
While holding the compass at eye level, keep the compass level and align your
destination with the sight notch on the top of the case.
Ensure that the sighting line in the mirror passes through the center of the compass
wheel.
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G
G. Rope Knot
This chapter shows how to tie a taut-line hitch knot. This loop knot can be adjusted to
loosen or tighten a line, yet holds under a load. This knot is commonly used to secure
tent lines and loads on vehicles. It is the recommended knot for securing the RT System
2 guy rope mast.
Figure G–1 Tying the Taut-line Hitch Knot
The following link provides a short video example:
http://www.sailingcourse.com/videos/taut_line_hitch.htm
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H
H. Country Codes
This chapter provides a quick-reference to the ISO
3166 country codes.
Table H–1 ISO 3166 Country Codes
Table H–1 ISO 3166 Country Codes
Name
Code
Afghanistan
004
Åland Islands
248
Albania
008
Algeria
012
American Samoa
016
Andorra
020
Angola
024
Anguilla
660
Antarctica
010
Antigua and Barbuda
028
Argentina
032
Armenia
051
Aruba
533
Australia
036
Austria
040
Azerbaijan
031
Bahamas (the)
044
Bahrain
048
Bangladesh
050
Barbados
052
Belarus
112
Belgium
056
Belize
084
Benin
204
Bermuda
060
Bhutan
064
RT System 2 v2.3
Name
Code
Bolivia, Plurinational
State of
068
Bonaire, Sint Eustatius
and Saba
535
Bosnia and Herzegovina
070
Botswana
072
Bouvet Island
074
Brazil
076
British Indian Ocean
Territory (the)
086
Brunei Darussalam
096
Bulgaria
100
Burkina Faso
854
Burundi
108
Cambodia
116
Cameroon
120
Canada
124
Cape Verde
132
Cayman Islands (the)
136
Central African Republic
(the)
140
Chad
148
Chile
152
China
156
Christmas Island
162
Cocos (Keeling) Islands
(the)
166
Colombia
170
Comoros
174
Congo
178
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H. Country Codes
Table H–1 ISO 3166 Country Codes
Table H–1 ISO 3166 Country Codes
Name
Code
Name
Code
Congo (the Democratic
Republic of the)
180
Georgia
268
Germany
276
Cook Islands (the)
184
Ghana
288
Costa Rica
188
Gibraltar
292
Côte d'Ivoire
384
Greece
300
Croatia
191
Greenland
304
Cuba
192
Grenada
308
Curaçao
531
Guadeloupe
312
Cyprus
196
Guam
316
Czech Republic (the)
203
Guatemala
320
Denmark
208
Guernsey
831
Djibouti
262
Guinea
324
Dominica
212
Guinea-Bissau
624
Dominican Republic (the)
214
Guyana
328
Ecuador
218
Haiti
332
Egypt
818
222
Heard Island and
McDonald Islands
334
El Salvador
Equatorial Guinea
226
336
Eritrea
232
Holy See (the) [Vatican
City State]
Estonia
233
Honduras
340
Ethiopia
231
Hong Kong
344
Falkland Islands (the)
[Malvinas]
238
Hungary
348
Iceland
352
Faroe Islands (the)
234
India
356
Fiji
242
Indonesia
360
Finland
246
364
France
250
Iran (the Islamic
Republic of)
French Guiana
254
Iraq
368
French Polynesia
258
Ireland
372
French Southern
Territories (the)
260
Isle of Man
833
Israel
376
Gabon
266
Italy
380
Gambia (The)
270
Jamaica
388
190
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H. Country Codes
Table H–1 ISO 3166 Country Codes
Table H–1 ISO 3166 Country Codes
Name
Code
Name
Code
Japan
392
Mauritius
480
Jersey
832
Mayotte
175
Jordan
400
Mexico
484
Kazakhstan
398
583
Kenya
404
Micronesia (the
Federated States of)
Kiribati
296
Moldova (the Republic
of)
498
Korea (the Democratic
People's Republic of)
408
Monaco
492
Korea (the Republic of)
410
Mongolia
496
Kuwait
414
Montenegro
499
Kyrgyzstan
417
Montserrat
500
Lao People's Democratic
Republic (the)
418
Morocco
504
Mozambique
508
Latvia
428
Myanmar
104
Lebanon
422
Namibia
516
Lesotho
426
Nauru
520
Liberia
430
Nepal
524
Libya
434
Netherlands (the)
528
Liechtenstein
438
New Caledonia
540
Lithuania
440
New Zealand
554
Luxembourg
442
Nicaragua
558
Macao
446
Niger (the)
562
Macedonia (the former
Yugoslav Republic of)
807
Nigeria
566
Niue
570
Madagascar
450
Norfolk Island
574
Malawi
454
458
Northern Mariana Islands
(the)
580
Malaysia
Maldives
462
Norway
578
Mali
466
Oman
512
Malta
470
Pakistan
586
Marshall Islands (the)
584
Palau
585
Martinique
474
Palestine, State of
275
Mauritania
478
Panama
591
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H. Country Codes
Table H–1 ISO 3166 Country Codes
Table H–1 ISO 3166 Country Codes
Name
Code
Name
Code
Papua New Guinea
598
534
Paraguay
600
Sint Maarten (Dutch
part)
Peru
604
Slovakia
703
Philippines (the)
608
Slovenia
705
Pitcairn
612
Solomon Islands (the)
090
Poland
616
Somalia
706
Portugal
620
South Africa
710
Puerto Rico
630
South Georgia and the
South Sandwich Islands
239
Qatar
634
South Sudan
728
Réunion
638
Spain
724
Romania
642
Sri Lanka
144
Russian Federation (the)
643
Sudan (the)
729
Rwanda
646
Suriname
740
Saint Barthélemy
652
Svalbard and Jan Mayen
744
Saint Helena, Ascension
and Tristan da Cunha
654
Swaziland
748
Saint Kitts and Nevis
659
Sweden
752
Saint Lucia
662
Switzerland
756
Saint Martin (French
part)
663
Syrian Arab Republic
(the)
760
Saint Pierre and
Miquelon
666
Taiwan (Province of
China)
158
Saint Vincent and the
Grenadines
670
Tajikistan
762
834
Samoa
882
Tanzania, United
Republic of
San Marino
674
Thailand
764
Sao Tome and Principe
678
Timor-Leste
626
Saudi Arabia
682
Togo
768
Senegal
686
Tokelau
772
Serbia
688
Tonga
776
Seychelles
690
Trinidad and Tobago
780
Sierra Leone
694
Tunisia
788
Singapore
702
Turkey
792
Turkmenistan
795
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H. Country Codes
Table H–1 ISO 3166 Country Codes
Name
Code
Turks and Caicos Islands
(the)
796
Tuvalu
798
Uganda
800
Ukraine
804
United Arab Emirates
(the)
784
United Kingdom (the)
826
United States (the)
840
United States Minor
Outlying Islands (the)
581
Uruguay
858
Uzbekistan
860
Vanuatu
548
Venezuela, Bolivarian
Republic of
862
Viet Nam
704
Virgin Islands (British)
092
Virgin Islands (U.S.)
850
Wallis and Futuna
876
Western Sahara*
732
Yemen
887
Zambia
894
Zimbabwe
716
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I
I. Français
Ce chapitre fournit des informations sur le suivant :
“Batteries” sur la page 194
“l'information juridique” sur la page 200
I.1 Batteries
Ce chapitre fournit des informations sur les batteries utilisées dans le système
RT System 2 de Wireless Seismic, Inc.
I.1.1 Batteries au lithium-ion
Cette section fournit des informations sur les caractéristiques, l'utilisation et la
manipulation des batteries au lithium-ion. Reportez-vous aux sections suivantes pour en
savoir plus:
Ɣ
Ɣ
Ɣ
Ɣ
“Spécifications” on page 194
“Directives en matière de manipulation et de sécurité” on page 195
“Transport” on page 196
“Entreposage” on page 198
I.1.1.1 Spécifications
Le RT System 2 utilise une ou deux batteries au lithium-ion intelligentes et
personnalisées, dotées d'un circuit de charge autonome qui protège les batteries contre
les surcharges, décharges, courts-circuits ou changements extrêmes de température.
Le tableau suivant indique les spécifications des batteries:
Tableau I–1 Spécifications des batteries au lithium-ion
Élément
Description
Valeur
Tension
Nominale
3,7 V c.c.
Arrêt
2,8 V c.c.
Charge complète (90 %)
4,1 V c.c.
Tension de charge excessive
4,28 V c.c.
Tension de décharge
excessive
2,80 V c.c.
Courant de charge maximum
2A
Consommation, mode actif
4,2 mA maximum
Consommation, mode veille
66 PA maximum
Courant
Charge complète (90 %)
mAh
RT System 2 v2.3
Environ 12 000 mAh à la
tension nominale
194
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I. Français
Batteries
Tableau I–1 Spécifications des batteries au lithium-ion (cont.)
Élément
Description
Charge complète (90 %)
mWh
Environ 44 400 mWh à la
tension nominale
Capacité
Valeur
48,8 wattheures
Connecteur
5 broches
DEL
Une DEL qui indique l'état de
charge lors de la connexion à
la station de charge, de la
manière suivante :
•
Vert : chargé
•
Rouge : en train de
charger
•
Orange : phase
transitionnelle entre l'état
de chargement et l'état
chargé, ou dépassement
des limites de la
température de charge
Étiquette
Une étiquette indiquant le
numéro de série sous forme
de code à barres
Température
Fonctionnement
De -40°C à +85°C
Chargement
De -5°Cà+45°C
Entreposage à température
ambiente
•
De -20°C à +45°C durant
une période maximum
d'un mois
•
De -20°C à +35°C durant
6 mois maximum ; passé
ce délai, les blocsbatteries doivent être
rechargés à plus de 50 %
de leur capacité
I.1.1.2 Directives en matière de manipulation et de sécurité
Respecter les directives suivantes en matière de manipulation et de sécurité :
R01.i
Si un bloc-batterie présente une fuite de liquides, ne pas toucher les liquides. Jeter le
bloc-batterie en cas de fuite. En cas de contact oculaire avec du liquide, ne pas se frotter
les yeux. Rincer immédiatement les yeux avec de l'eau pendant au moins 15 minutes, en
soulevant les paupières supérieures et inférieures jusqu'à ce qu'il n'y ait plus de trace de
liquide. Consulter un médecin.
Ne pas démonter, écraser ou percer une batterie
Ne pas court-circuiter les contacts externes d'une batterie
Ne pas jeter une batterie dans le feu ou l'eau
Ne pas exposer une batterie à des températures supérieures à 60 °C (140 °F)
Maintenir la batterie à l'écart des enfants
Éviter d'exposer la batterie à des vibrations ou chocs excessifs
Ne pas utiliser une batterie endommagée
Les blocs-batteries au lithium-ion DOIVENT être entièrement déchargés avant leur
élimination
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Batteries
Bien qu'il puisse exister des restrictions locales ou nationales, les batteries au lithium-ion
sont considérées comme des « déchets universels non dangereux » par le gouvernement
fédéral. Il existe des restrictions qui s'appliquent à ceux qui gèrent de grandes quantités
de déchets universels ; celles-ci définissent l'étiquetage, le confinement, etc. Dans la
mesure du possible, les batteries doivent être déchargées avant de les jeter. Les
conducteurs/contacts de batterie doivent être fixés de manière à éviter un court-circuit
accidentel. Chaque bloc-batterie doit être placé dans un sac en plastique.
Le recyclage est encouragé lorsqu'il est réalisable. Les batteries contiennent des
matériaux recyclables et sont acceptées par plusieurs entreprises de recyclage de
batteries. Reportez-vous à l'un des éléments suivants pour obtenir plus d'informations
sur le recyclage et l'élimination :
Ɣ
Ɣ
Ɣ
Ɣ
Ɣ
http://www.swe.com
http://www.rbrc.org
http://www.call2recycle.org
1-800-8-BATTERY
1-877-2-RECYCLE
I.1.1.3 Transport
Aux États-Unis, les expéditions de grandes quantités de batterie au lithium-ion (plus de 24
piles ou 12 batteries par colis) sont réglementées comme des matières dangereuses (classe
9) par le gouvernement fédéral et sont soumises aux règlements décrits ci-après :
Code of Federal Regulations, Title 49 Transportation.
http://ecfr.gpoaccess.gov/cgi/t/text/textidx?sid=92868a82add6feba6afa796572133179&c=ecfr&tpl=/ecfrbrowse/Title49/
49tab_02.tpl
International Air Transport Association (IATA)
http://www.iata.org/whatwedo/cargo/dangerous_goods/pages/lithium_batteries.aspx
Les batteries ne peuvent être expédiées par voie terrestre que si toutes les conditions
suivantes sont satisfaites :
196
La boîte utilisée satisfait le test de chute de 1,2 m (boîte classée « UN ») de boîte
d'emballage
Les bornes de bloc-batterie sont protégées pour éviter un court-circuit
Le poids brut ne dépasse pas 30 kg (66 livres)
L'emballage extérieur porte l'étiquette requise en vigueur. La figure suivante en montre
un exemple.
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Batteries
Exemple I–1 Example Battery Shipping Label
Les batteries ne peuvent être expédiées par voie aérienne que si toutes les conditions
suivantes sont satisfaites :
La boîte utilisée satisfait le test de chute de 1,2 m (boîte classée « UN ») de boîte
d'emballage
Les bornes de bloc-batterie sont protégées pour éviter un court-circuit
REMARQUE
R01.i
Le poids brut de chaque colis ne dépasse pas 10 kg (22 livres)
L'emballage extérieur porte l'étiquette requise en vigueur. La figure précédente en
montre un exemple (“Example Battery Shipping Label” on page 197).
Les informations contenues dans le présent document ont pour
but de fournir une connaissance générale des règlements
s'appliquant aux batteries. Elles ne sont pas exhaustives, et les
conditions mentionnées dans ce document peuvent avoir
changées. Rien dans le présent chapitre ou dans le Guide de
déploiement ne constitue un avis juridique ou est destiné à
répondre aux problèmes juridiques, de conformité, ou
réglementaires spécifiques qui peuvent survenir dans des
circonstances particulières. Le présent chapitre et le Guide de
déploiement ne sont pas destinés à remplacer les règlements
officiels en vigueur concernant l'emballage et l'expédition de
matières dangereuses ou un conseil juridique indépendant sur
c es questions. Vous êtes seul responsable du respect de
toutes les lois, règlements et autres exigences. Veuillez vous
reporter à une copie officielle de la version en vigueur de ces
documents pour obtenir les dernières informations.
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Batteries
I.1.1.4 Entreposage
Un entreposage et un entretien adéquats des batteries au lithium-ion est indispensable pour
optimiser leur durée de vie utile et éviter une défaillance catastrophique. Respecter les
précautions suivantes en matière d'entreposage :
Retirer les batteries de l'unité distante sans fil avant l'entreposage
Température d'entreposage recommandée des batteries au lithium-ion :
Ɣ
Ɣ
De -20°C à +45°C durant une période maximum d'un mois
Ɣ
L'entreposage à basses températures ralentit la décharge naturelle et la perte de
capacité au fil du temps. Entreposer les batteries à 25°C ou moins si possible
De -20°C à +35°C durant 6 mois maximum ; passé ce délai, les blocs-batteries
doivent être rechargés à plus de 50 % de leur capacité
Niveaux de charge d'entreposage recommandés :
Ɣ
Charger (ou décharger) les batteries à un niveau de charge de 30 % à 50 % avant
de les entreposer. Des niveaux de charge inférieurs ou supérieurs peuvent réduire la
durée de vie des batteries.
Ɣ
Ne jamais entreposer des batteries entièrement déchargées, sauf en cas
d'élimination.
Ɣ
Un chargement périodique est nécessaire pour maintenir une charge de 30 % à 50 %
en cas d'entreposage de longue durée
Entreposer les batteries dans un endroit bien aéré
Vérifier régulièrement l'état de charge de la batterie
Ne pas laisser les batteries inutilisées pendant de longues durées, qu'elles soient dans le
produit ou placées en entreposage. Si une batterie n'a pas été utilisée pendant 6 mois,
vérifier l'état de charge et charger ou éliminer la batterie, le cas échéant.
Envisager le remplacement de la batterie par une nouvelle en cas de constat d'une des
conditions suivantes :
Ɣ
L'autonomie de la batterie descend en dessous d'environ 80 % de son autonomie
initiale
Ɣ
Le temps de charge de la batterie augmente sensiblement
I.1.2 Chargement des batteries au lithium-ion
Cette section décrit les précautions de chargement et présente le chargeur de batterie.
I.1.2.1 Précautions de chargement
Respecter les précautions de chargement suivantes :
198
Avant de la charger, inspecter la batterie pour détecter les signes éventuels de
dommages sur le boîtier ou les connecteurs susceptibles de créer un court-circuit.
La batterie peut être chargée dans la plage de température de 0°Cà+45°C. En cas de
chargement de la batterie en dehors de cette plage, la batterie peut devenir très chaude
ou se rompre.
Être absolument sûr de l'utilisation d'une source de 5 V lors du chargement de la
batterie.
Prendre soin de charger les batteries sur une surface ininflammable.
NE JAMAIS laisser une batterie au lithium-ion sans surveillance lorsqu'elle est en train de
charger.
Ne pas charger les batteries à proximité d'objets ou de liquides inflammables.
Conserver un extincteur à poudre chimique de classe C à proximité.
Ne pas continuer de recharger la batterie si elle ne se recharge pas dans le temps de
chargement spécifié.
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Batteries
I.1.2.2 Chargeur de batterie
Le chargeur de batterie au lithium-ion est conçu pour fonctionner à partir d'une ligne de
service simple 120 V c.a., 10 A.
Le bloc d'alimentation servant à charger le bloc-batterie fournit une tension régulée de 5 V
c.c.
Exemple I–2 Chargeur de batterie
Exemple I–3 Étiquette avec
numéro de série et voyant
DEL
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l'information juridique
PRUDENCE
Le risque d'explosion si la batterie est remplacée par un type incorrect.
Débarrassez-vous utilisé batteries selon les instructions.
I.2 l'information juridique
I.2.1 Conformité avec les règles et règlements de la FCC
La Federal Communications Commission (FCC) règlemente l'utilisation d'antennes dans
l'article suivant : Code of Federal Regulations – Title 47, Part 15 – Radio Frequency Devices,
Subpart C – Intentional Radiators, Section 15.203 Antenna Requirement.
REMARQUE
REMARQUE
Cet équipement a été testé et jugé conforme aux limites fixées pour un appareil
numérique de classe A, conformément à la partie 15 des règles de la FCC. Ces
limites sont conçues pour fournir une protection raisonnable contre les
interférences nuisibles lorsque l'équipement est utilisé dans un environnement
commercial. Cet équipement génère, utilise et peut émettre l'énergie des
fréquences radio et, s'il n'est pas installé et utilisé conformément au mode
d'emploi, peut causer des interférences nuisibles avec les communications
radio. Le fonctionnement de cet équipement dans une zone résidentielle est
susceptible de provoquer des interférences nuisibles, auquel cas l'utilisateur
devra corriger les interférences à ses propres frais.
En vertu des règlementations d’Industrie Canada, cet émetteur radio peut être
utilisé uniquement à l’aide d’une antenne de type et de gain maximum (ou
inférieur) approuvés pour l’émetteur par Industrie Canada. Pour réduire les
interférences radio éventuelles avec d’autres utilisateurs, le type et le gain de
l’antenne doivent être choisis de sorte que la puissance isotrope rayonnée
équivalente (p.i.r.e.) ne dépasse pas la valeur nécessaire pour établir une
communication réussie.
Lorsqu'il est utilisé comme prévu, le RT System 2 respecte les conditions de l'article 15.203
de la FCC et d'Industrie Canada CNR-Gen 7.1.2 de la manière suivante :
200
Les antennes du RT System 2 doivent être installées et manipulées par des
professionnels spécifiquement désignés pour cela.
Les changements ou modifications non expressément approuvés par Wireless Seismic,
Inc. peuvent annuler l'autorisation de l'utilisateur d'utiliser l'équipement.
Le système RT 2 doit être utilisé uniquement avec les antennes fournies (Tableau I–2)
attachées à l’unité distante sans fil ou WRU (tous les modèles) ou à l’unité d’interface de
ligne ou LIU (tous les modèles) avec un connecteur (fileté ou HPQN) mâle de type N.
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I. Français
l'information juridique
Cet émetteur radio a été approuvé par Industrie Canada pour fonctionner avec
les types d’antenne énumérés ci-dessous. Le gain maximum permis et
l’impédance d’antenne requise pour chaque antenne sont indiqués. Les types
d’antenne non inclus dans cette liste, ayant un gain supérieur au gain maximum
indiqué pour le type en question, sont strictement interdits pour ce dispositif.
REMARQUE
Tableau I–2 Spécifications des antennes
Fréquence
(MHz)
Modèle
WSI 65-0204/65-0264
2400
Gain Maximal
5,5 dBi (50 ohms)
Bande
passante
verticale
25°
(antenna standard)
WSI 65-0091
2400
0 dBi
s.o.
(extenseur standard)
PRUDENCE
Poids
Dimensions
(longueur x dia
mètre)
0.4 lbs
32 x 0,6 po
0.2 kg
810.5 x 15 mm
0.6 lbs
30 x 0,7 po
0.3 kg
762 x 18,5 mm
Afin de se conformer aux normes de la matière d'exposition aux
radiofréquences (RF), les unités RT System 2 doivent être installées de
manière à garder en permanence une distance minimale de 20 cm entre la
ou les antennes et le corps de toute personne en mode de fonctionnement
normal.
L'autorisation d'équipement de FCC a été accordée comme suit :
Le 5Mbps unité d'interface de ligne a reçu l'autorisation d'équipement.
Le 5Mbps unité lointaine sans fil a reçu l'autorisation d'équipement.
I.2.2 Industrie Canada Conformité
L’unité distante sans fil (WRU) fournie avec ce guide a obtenu l’approbation
d’Industrie Canada (IC) ainsi que la certification en vertu de l’édition 8 de la norme RSS-210
et de l’édition 4 de la norme RSS-102.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
L’unté d’interface de ligne (LIU) fournie avec ce guide a obtenu l’approbation
d’Industrie Canada (IC) ainsi que la certification en vertu de l’édition 8 de la norme RSS-210
et de l’édition 4 de la norme RSS-102.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
Cet appareil est conforme avec I'industrie Canada licence exemptes des normes. Son
fonctionnement est soumis aux deux conditions suivantes :
R01.i
Ce dispositif ne peut causer des interférences, et
Ce dispositif doit accepter toute interférence, y compris les interférences qui peuvent
causer un mauvais fonctionnement du dispositif.
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l'information juridique
I.2.3 Acquiescement de CE
L’unité distante sans fil (WRU) et l’unité d’interface de ligne (LIU) fournies avec ce guide sont
conformes aux directives applicables de l’UE pour la marque de Conformité européenne (CE).
La marque suivante est apposée sur chaque unité.
Exemple I–4 Marque de CE
202
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Index
Numerics
12 V DC 39
19 dBi directional antenna 149
5.8 GHz band 38
56-0032 INTL 71
56-0035 US 71
6 dBi antenna 149
65-0091 18
90-0026 10
90-0028 10
90-0032 10
90-0039 10
cable
Armored Ethernet 45
clamp 55
Ethernet 45
LIU to Battery 45
LIU to NanoStation radio 45
LIU-to-PC 45
RF Extender 45
Shielded Ethernet 45
cables 59, 63
central 31
clamps 63
color-coded 67
compass 184
contact 10
Continue 168
country codes for radios 71
CSS 27
custom number of recorder radios 119
access point radio 67
Acquiring GPS fix 169
anchor plate 23
antenna
attach 18
bracket 56
connecting 18
extender 18
extenders 11
specifications 39, 44, 145
antennas 39, 144
radio 44
anti-tipping 23
armored cable 59
assemble
the backhaul 50
the ground equipment 16
auto-power-leveling 39
data flow 28
declination 184
deploy
at actual location 14
deviation 185
disassemble the WRU 136
discharge 138
discover and configure the radios 71, 106
Dummy Batteries 11
elbow connector 59
Elevation Profile 77, 113
error
Geophone failure 169
indicators 163
No GPS fix 169
No neighbor detected 170
Self test failure 174
Error LEDs 168
Ethernet cable
non-powered 80
powered 80
extreme temperature charging 138
B 169, 175
backhaul 26, 31
components 31
masts 49
power requirements 39
Backpack Kit 31
base 49, 51
tips 50
batteries
attach 16
battery
charge time 12
charger 142
charger location 12
charging 142
failure 179
fuse test failure 166
handling and safety guidelines 139
latch 16
remove 136
shipments 140
specifications 138
storage 141
Battery A in use 172, 173
Battery B in use 172, 173
battery failure 179
browser pop-ups 121
Bucket Brigade 26
RT System 2 v2.3
FCC 144
Section 15.203 144
Fiber Backhaul Kit 32, 45
fiber cables 68
fiber optic cable 38
figure
Tripod Assembly – Front View 183
final speed test 119
firmware
upgrade 181
Formed 178
four-line, dual-backhaul line 29
frequency
International 71
United States of America 71
fuse test failure 166
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Index
LIU Kit 31
locate an object using a map and a compass 185
loop knot 188
geographic north 184
geophone 17
Geophone test in progress 168
Global Mapper 77
Google Earth 77, 113
GPS
acquire position 21
antenna 59
disciplined 177
error 169
LED flashing 21
lock 21, 177
lock, not disciplined 180
no discipline 179
no lock 180
green-to-green 59
ground 63
equipment 11
wire 59, 63
ground equipment
assemble 16
guy
lines 60, 61
ring 54, 55, 56
magnetic
north 184
objects near a compass 185
mast 49, 51, 61, 62, 182
assemble 54
collar 60
kit 31
masts 49
modifications 144
Neighbor
discovered 169
discovery in progress 169
no
communications with Central 179
GPS discipline 179
GPS lock 180
IP Address 179
node 26
help 10
hopping 26
hose clamp 52
obstructions 50
one recorder, multiple line station radios 117
overcharge 138
Industrial, Scientific, and Medical radio band 27
Industry Canada RSS-Gen 7.1.2 144
install and troubleshoot the radios 78
ISM 27
ISO 3166-1 71
LED
dead batteries 164, 166, 172, 173
reset pattern 176
sleeping 164, 166, 172, 173
status 163
undeployed 164, 166, 172, 173
line radio 39, 52
kit 32
line station 31
LIU 38
A, flashing 179
A, solid 177, 178
all off 175
B, flashing 179
B, solid 177, 178
BAT, flashing 178, 179
BAT, solid 178
Disciplined to GPS 177
GPS, flashing 177, 178, 179
GPS, off 180
GPS, solid 177, 180
hard reset 176
LEDs 175
LNK, flashing 178, 179
LNK, off 179
LNK, solid 177, 178
MODE, flashing 177, 178, 179
MODE, solid 177
power on LED rotation 176
RAD, flashing 178
RAD, solid 178
LIU connected to Central 177
R01.i
pendant link 72
pendant radio connection 96
pendant radio link connections 95
PoE 27
injector 27
switch 27
Point-to-Multipoint 26
Point-to-Point 26
pole pairs 67
power off WRU 135
Power over Ethernet 27
power-leveling 39
private network 72, 107
radio
Access Point (A) 67
configuration 70
configuration files 71, 106
configure 117
country codes 71
create an Elevation Profile 77
credentials 74
default IP Address 73
error message 71
frequencies 105
install and troubleshoot 115
label 67
link to recording truck 72
location plan 76
multiple line station 117
one recorder 117
pairs 67
prepare 70, 104
recorder 119
redundant recorder 118
replacing 90
set power level 97
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Index
shielding 85
speed test 80
Station (S) 67
upload configuration file 75
upload new firmware 90
version 70
versions 105
recorder 31
radio 43
Recorder Radio Kit 33, 34
recording truck 31
recording truck connection
fiber cable 92
optimal angle pendant to line 94
radio link (pendant) 93
redundant recorder radio 118
relay 26
remote 31
remove battery 136
repeater 19
rolling the backhaul 86
run the speed test 82, 120
self test 168
fails 22
failure 21
in progress 168
set the PN radio power level 97
short circuit 138
single-backhaul line 28
skip
a self-test 22
a test 168
slope 50
specifications
antenna 39, 44, 145
stakes 52, 61
star configuration 26, 30
static IP address 72
station radio 67
status
Acquiring GPS fix 169
Battery A in use 172, 173
Battery B in use 172, 173
Continue 168
Geophone test in progress 168
Neighbor discovered 169
Neighbor discovery in progress 169
self test in progress 168
Undeployed 164, 172, 173
String-of-Pearls 26
supported
antennas 39, 44, 145
Surge Protector 34, 44, 59, 60
ground wire 63
upload new firmware 128
upload new radio firmware 90
users 10
white-to-white 59
wind 51
WRU
A, flashing 169, 172, 173, 175
A, solid 166
B, flashing 169, 172, 173, 175
B, solid 167
BAT, flashing 168, 181
BAT, solid 166, 167, 174
GEO, flashing 168, 181
GEO, solid 168, 169, 174
GPS, flashing 168, 169
GPS, solid 168, 169, 174
hard reset 165, 171
MODE, flashing 168, 169, 175
MODE, solid 168, 180
no LEDs 164, 166, 172, 173
power off 135
power on 19
power on LED rotation 165, 171
RAD, flashing 168, 169, 181
RAD, solid 170, 174
tests 21
THD test failure 169
tie a taut-line hitch knot 188
tipping, preventing 23
tripod assembly 183
true north 184
Ubiquiti Discovery Tool 71, 106
download 73
undeploy the WRU 135
undeployed 136, 164, 172, 173
unzip
7-Zip 91, 129
Windows 7 91, 129
205
RT System 2 v2.3 Deployment Guide
© 2010-2014 Wireless Seismic, Inc. All rights reserved.
R01.i

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