Campbell Manufacturing Weather Radio ET106 User Manual

ET106 Weather Station  
Revision: 9/02  
C o p y r i g h t ( c ) 1 9 9 3 - 2 0 0 2  
C a m p b e l l S c i e n t i f i c , I n c .  
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ET 106 Weather Station  
Table of Contents  
PDF viewers note: These page numbers refer to the printed version of this document. Use  
the Adobe Acrobat® bookmarks tab for links to specific sections.  
1. Preparation and Siting.............................................1-1  
1.1 Installation Tasks .................................................................................. 1-1  
1.2 Tools Required...................................................................................... 1-2  
1.3 Siting and Exposure.............................................................................. 1-5  
1.4 Determining True North for Wind Vane Orientation............................ 1-7  
2. ET Tower Installation...............................................2-1  
2.1 Base Installation.................................................................................... 2-1  
2.2 Tower Installation................................................................................. 2-3  
2.3 Tower Grounding.................................................................................. 2-4  
3. ET Instrumentation Installation ..............................3-1  
3.1 Enclosure, Datalogger, Power Supply................................................... 3-2  
3.2 Sensor Connection ................................................................................ 3-5  
3.3 Communication and Data Storage Peripherals...................................... 3-6  
3.4 Sealing and Desiccating the Enclosure ............................................... 3-12  
4. ET106 Sensor Arm Installation ...............................4-1  
4.1 Components .......................................................................................... 4-1  
4.2 Installation ............................................................................................ 4-1  
4.3 Sensor Connection ................................................................................ 4-1  
4.4 034A Wind Sensor Installation............................................................. 4-2  
4.5 RH and Temperature Radiation Shield ................................................. 4-3  
4.6 Pyranometer.......................................................................................... 4-3  
4.7 Soil Temperature Sensor (Optional) ..................................................... 4-3  
4.8 Sensor Verification and Clock Set........................................................ 4-3  
4.9 Upgrading an ET101 to an ET106........................................................ 4-4  
4.10 Sensor Schematics .............................................................................. 4-6  
5. ET Software Installation ..........................................5-1  
5.1 Quick Start Review............................................................................... 5-1  
6. Maintenance and Troubleshooting.........................6-1  
6.1 Maintenance.......................................................................................... 6-1  
6.2 Troubleshooting.................................................................................... 6-3  
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Section 1. Preparation and Siting  
These guidelines apply to several different Campbell Scientific weather stations.  
1.1 Installation Tasks  
1.1.1 Indoors  
Immediately upon receipt of your shipment…  
Open shipping cartons.  
Check contents against invoice. Contact CSI immediately about any  
shortages.  
Several days prior to the planned installation date…  
Collect tools and site information (Section 1)  
Assemble datalogger, communications device, and power supply in  
enclosure (Section 3)  
Install datalogger support software on PC (Section 5)  
Establish communications between the datalogger and the PC  
(Section 5)  
Program datalogger, test sensors, and retrieve data (Section 5)  
Trial run the tower / tripod installation, assembling as much as  
possible (Section 2)  
Repackage equipment for transport to the field site  
1.1.2 Outdoors  
Locate suitable site (Section 1)  
Prepare tower or tripod base (Section 2)  
Tripod and UT10 (3 meter tower) tower stations:  
Raise tripod or tower (Section 2)  
Install instrumentation enclosure (Section 3)  
Install sensors (Section 4)  
1-1  
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Section 1. Preparation and Siting  
UT30 (10 meter tower) tower stations:  
Install 3 to 10 meter level sensors (Section 4)  
Raise tower (Section 2)  
Install instrumentation enclosure (Section 3)  
Install 0 to 3 meter level sensors (Section 4)  
ET101 / ET106 ET Stations:  
Place instrumentation enclosure low on the ET Tower (Section 3)  
Install sensor option (Section 4)  
Slide enclosure to top of tower and secure with correct orientation  
(Section 3)  
1.2 Tools Required  
Tools required to install and maintain a weather station are listed below.  
1.2.1 Tools for Tower Installation  
All Towers  
Shovel  
Rake  
Open end wrenches: 3/8", 7/16", ½", (2) 9/16"  
Magnetic compass  
6' Step ladder  
CM6/CM10  
Tape measure (12')  
Level (12" to 24")  
Small sledge hammer  
Teflon tape or pipe dope  
Allen hex wrench (5/64)  
UT10  
Tape measure (12' to 20')  
Level (24" to 36")  
Pick or digging bar  
Claw Hammer  
Materials for concrete form:  
Hand saw  
(4) 12" wood stakes  
(1) 2"x 4"x 8' piece of lumber  
(8) 8p double-head nails  
(8) 16p double-head nails  
Concrete trowels  
(2) 1 to 1.5" thick x 24" boards to support base above forms (optional)  
Concrete (0.4 cubic yards)  
1-2  
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Section 1. Preparation and Siting  
ET Tower  
Tape measure (12’ to 20’)  
Claw hammer  
Level (24” to 36”)  
Hand saw  
Materials for concrete form:  
(4) 1" x 2" x 12" stakes  
(2) 2" x 4" x 96" lumber  
(12) 8p double-head nails  
(8) 16p double-head nails  
20 ft form wire  
½ Yard concrete  
Concrete trowel, edger  
Electrical Fish tape or 20 feet of small diameter rope  
Wheelbarrow  
UT30  
Tape measure (12' and 20')  
Nut driver (3/8")  
Level (36" to 48")  
Small sledge hammer  
Pliers  
Tie wire  
Climbing harness  
Hard hat  
Haul rope (50')  
Non-stretch line (20')  
Wire rope cutters  
Materials for B18 Base and UTEYE Anchors:  
(4) Wood stakes 12"  
Pick or digging bar  
Concrete form materials (2"x 4" lumber, stakes, saw, hammer, nails, etc.)  
Concrete trowel and edger  
Materials for UTDUK Duckbill Anchors  
Sledgehammer  
Highlift jack  
Chain (to attach jack to anchor loops)  
Materials for RFM18 Base:  
(3) anchors appropriate for mounting surface  
(3) bolts and washers to secure base to anchors  
1.2.2 Tools for Instrumentation and Maintenance  
All Towers  
Lock and key for enclosure  
Magnetic declination angle (Section 4)  
Magnetic compass  
Straight bit screwdrivers (small, medium, large)  
Phillips-head screwdrivers (small, medium)  
Small diagonal side-cuts  
Needle-nose pliers  
Wire strippers  
Pocket knife  
Calculator  
Volt / Ohm Meter  
Electrical Tape  
1-3  
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Section 1. Preparation and Siting  
Step ladder (6')  
Datalogger prompt sheet (Section 6)  
Station manuals  
Station log and pen  
Open end wrenches: 3/8", 7/16", ½", (2) 9/16"  
Socket wrench and 7/16" deep well socket  
Adjustable wrench  
Pliers  
Conduit and associated tools (as required)  
Felt-tipped marking pen  
Claw hammer  
Pipe wrench (12")  
CM6/CM10  
Tape measure (12')  
Level (12" to 24")  
Teflon tape or pipe dope  
UT10  
Tape measure (12' to 20')  
3/8" nut driver  
Level (24" to 36")  
Teflon tape or pipe dope  
(12) 1/4" washers (for the 015 Crossarm stand only)  
Allen wrench set  
UT30  
Tape measure (12' to 20')  
3/8" nut driver  
Level (36" to 48")  
Pliers  
Climbing harness  
Hard hats  
50' haul rope  
Crescent wrench  
Channel-lock pliers  
1/4" washers (spacers for U-bolts)  
5/64" Allen hex wrench  
1.2.3 Supplies for Power and Communications Options  
AC Power  
Wire, conduit, and junction boxes as needed  
Phone Modem  
Hayes compatible calling modem for PC  
Phone line to weather station or junction box  
Short-Haul Modem  
4 Conductor communications cable from PC to weather station or junction box  
6' copper ground rod and clamp for PC surge protection (optional)  
1-4  
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Section 1. Preparation and Siting  
1.3 Siting and Exposure  
If any part of the weather station comes in contact with  
power lines, you could be killed. Contact local utilities for  
CAUTION  
the location of buried utility lines before digging or driving  
ground rods.  
Selecting an appropriate site for the weather station is critical in order to obtain  
accurate meteorological data. In general, the site should be representative of  
the general area of interest, and away from the influence of obstructions such as  
buildings and trees.  
The weather station should not be located where sprinkler irrigation water will  
strike sensors or instrument enclosure.  
Some general guidelines for site selection are listed below, which were  
condensed from EPA (1988)1, WMO (1983)2, and AASC (1985)3 publications.  
1.3.1 Wind Speed and Direction  
Wind sensors should be located over open level terrain, and at a distance of at  
least ten times (EPA) the height of any nearby building, tree or other  
obstruction, as illustrated in Figure 1.3-1.  
Standard measurement heights:  
3.0 m ± 0.1 m recommended (AASC)  
2.0 m ± 0.1 m, 10.0 m ± 0.5 m optional (AASC)  
10.0 m (WMO and EPA)  
1.3.2 Temperature and Relative Humidity  
Sensors should be located over an open level area at least 9 m (EPA) in  
diameter. The surface should be covered by short grass, or where grass does  
not grow, the natural earth surface. Sensors should be located at a distance of  
at least four times the height of any nearby obstruction and at least 30 m (EPA)  
from large paved areas. Sensors should be protected from thermal radiation,  
and adequately ventilated.  
Situations to avoid include:  
large industrial heat sources  
rooftops  
steep slopes  
sheltered hollows  
high vegetation  
shaded areas  
swamps  
areas where snow drifts occur  
low places holding standing water after rains  
1-5  
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Section 1. Preparation and Siting  
Standard measurement heights:  
1.5 m ± 1.0 m (AASC)  
1.25 - 2.0 m (WMO)  
2.0 m temperature (EPA)  
2.0 m and 10.0 m for temperature difference (EPA)  
1.3.3 Precipitation  
A rain gage should be sited on level ground that is covered with short grass or  
gravel. In open areas, the distance to obstructions should be two to four times  
(EPA, AASC) the height of the obstruction.  
The height of the opening should be as low as possible, but should be high  
enough to avoid splashing from the ground. Wind shields, such as those used  
by the National Weather Service, are recommended for open areas.  
Collectors should be heated, if necessary, to properly measure frozen  
precipitation. The gage must be mounted above the average level of snow  
accumulation in areas that experience significant snowfall.  
Standard measurement heights:  
1.0 m ± 1.0 cm (AASC)  
30.0 cm minimum (WMO, EPA)  
1.3.4 Solar Radiation  
Pyranometers should be located to avoid shadows on the sensor at any time.  
Mounting it on the southern most (northern hemisphere) portion of the weather  
station will minimize the chance of shading from other weather station  
structures. Reflective surfaces and sources of artificial radiation should be  
avoided. The height at which the sensor is mounted is not critical.  
1.3.5 Soil Temperature  
2
The measurement site for soil temperature should be at least 1 m and typical of  
the surface of interest. The ground surface should be level with respect to the  
immediate area (10 m radius).  
Standard measurement depths:  
10.0 cm ± 1.0 cm (AASC)  
5.0 cm, 10.0 cm, 50.0 cm, 100.0 cm (WMO)  
1-6  
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Section 1. Preparation and Siting  
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FIGURE 1.3-1. Effect of Structure on Wind Flow  
1.4 Determining True North for Wind Vane  
Orientation  
Magnetic declination, or other methods to find True North, should be determined  
prior to installing the weather station. True North is usually found by reading a  
magnetic compass and applying the correction for magnetic declination*; where  
magnetic declination is the number of degrees between True North and Magnetic  
North. Magnetic declination for a specific site can be obtained from a USFA map,  
local airport, or through an internet service called NSSDC CGM (Section 1.4.1). A  
general map showing magnetic declination for the contiguous United States is  
shown in Figure 1.4-1.  
Declination angles east of True North are considered negative, and are subtracted  
from 0 degrees to get True North as shown Figure 1.4-2. Declination angles west  
of True North are con-sidered positive, and are added to 0 degrees to get True  
North as shown in Figure 1.4-3. For example, the declination for Logan, Utah is  
14.5° East. True North is 360° - 14.5°, or 345.5° as read on a compass.  
*
Other methods employ observations using the North Star or the sun, and  
are discussed in the Quality Assurance Handbook for Air Pollution  
Measurement Systems, Volume IV - Meteorological Measurements .  
4
1-7  
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Section 1. Preparation and Siting  
Subtract declination from 360°  
Add declination to 0°  
20  
W
W
22  
E
18  
16  
W
20  
E
14  
12  
W
W
18  
E
10  
W
W
8
16  
E
6
W
4
W
14  
E
2
W
0
12  
E
2
E
10  
E
4
E
8
E
6
E
FIGURE 1.4-1. Magnetic Declination for the Contiguous United States  
1.4.1 NSSDC CGM Service  
The NSSDC CGM (Corrected Geomagnetic) Service provides an easy way of  
determining magnetic declination of a specific site. Since magnetic declination  
fluctuates with time, it should be determined each time the wind vane  
orientation is adjusted. It can be accessed on the world wide web at  
If you know the latitude and longitude of your site, fill out Form 1as shown  
below for an accurate magnetic declination. If you do not know the latitude  
and longitude of your site, fill out Form 2 for estimate of magnetic declination.  
Note that longitude is expressed in 0 to 360 degrees east of the Greenwich  
prime meridian, and that north latitudes are positive.  
Query Form 1: Latitude/Longitude  
Latitude/Longitude below specified in: Geographic  
Year (from 1945 to 2000): 1998  
Altitude above Earth's surface (km) [from 0. to 40000.]: 0  
Latitude (degrees) [from -90.00 to 90.00]: 42.03  
Longitude (degrees) [from 0.00 to 360.00]: 248.15  
Query Form 2: Image Map  
Year (from 1945 to 2000): 1998  
Altitude above Earth's surface (km) [0. - 40000.]: 0  
Click on map to specify location and submit: (select area on map provided)  
A table containing similar information to the following will be returned after  
submitting Forms 1 or 2.  
1-8  
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Section 1. Preparation and Siting  
Geographic  
Alt.  
(km)  
CGM  
Lat. Long.  
IGRF Magnetic Field  
Dipole  
Long.  
Lat.  
Long.  
H(nT)  
D(deg)  
Z(nt)  
Lat.  
49.68 312.14  
42.03 248.15  
0.  
49.80 311.06  
20608.  
14.417  
50505.  
Magnetic declination is bold in this example to show its location in the table. A  
positive declination is east, while a negative declination is west. The  
declination in this example is 14.417 degrees. As shown in Figure 1.4-1, the  
declination for Logan, UT is east, so True North for this site is 360 - 14.417, or  
345.5 degrees.  
FIGURE 1.4-2. Declination Angles East of True North Are  
Subtracted From 0 to Get True North  
FIGURE 1.4-3. Declination Angles West of True North Are  
Added to 0 to Get True North  
1-9  
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Section 1. Preparation and Siting  
References  
1
EPA, (1987). On-Site Meteorological Program Guidance for Regulatory  
Modeling Applications, EPA-450/4-87-013. Office of Air Quality Planning  
and Standards, Research Triangle Park, North Carolina 27711.  
2
3
4
WMO, (1983). Guide to Meteorological Instruments and Methods of  
Observation. World Meteorological Organization No. 8, 5th edition, Geneva,  
Switzerland.  
The State Climatologist, (1985) Publication of the American Association of  
State Climatologists: Height and Exposure Standards for Sensors on Automated  
Weather Stations, v. 9, No. 4 October, 1985.  
EPA, (1989). Quality Assurance Handbook for Air Pollution Measurement  
Systems, EPA Office of Research and Development, Research Triangle Park,  
North Carolina 27711.  
1-10  
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Section 2. ET Tower Installation  
DANGER: Do not install near power lines. If any part of the tower comes in contact with  
power lines you could be KILLED. Contact local utilities for the location of buried utility  
lines before digging or driving grounding rods.  
CAUTION: Do not fit the 3 meter ET Tower sections together until the appropriate time.  
Once attached, they cannot be detached.  
The ET Tower provides a support structure for mounting the ET101 and ET106 weather  
station components. Figure 2.1-1 shows a typical ET Tower installation option. The  
tower is designed to withstand winds of 100 mph. The lightning rod assembly is attached  
after the instrumentation enclosure is installed (Section 3.1).  
Transformer  
User Supplied  
Junction Box  
ET Tower  
16 VAC  
Power  
Valve Box  
110 VAC  
Ground  
Rod  
Communications  
Line  
Direct Bury  
Splices  
Concrete  
Base  
FIGURE 2.1-1. ET Tower Installation  
2.1 Base Installation  
2.1.1 Supplied Components  
(3) ½ inch L-Bolts  
(9) ½ inch Nuts  
(1) Anchor Template  
Refer to Section 1 for components supplied by installer.  
2-1  
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Section 2. ET Tower Installation  
2.1.2 Installation  
1. The ET Tower attaches to a user supplied concrete foundation constructed  
as shown in Figure 2.1-2.  
2. Construct the concrete form with 2" x 4" lumber and 16p nails.  
3. Assemble the template and anchor bolts. There should be two nuts below  
and one nut above the template on each bolt.  
4. Clear an area large enough to set the form at the desired elevation.  
5. Dig a hole 2 feet x 2 feet x 2 feet. Lighter soils may require a deeper hole.  
About 20 inches below the top of the hole, gouge a small cavity in one wall  
of the hole. The cavity should be about 4 inches deep and just large  
enough in diameter to insert one end of the conduit. Make certain the  
cavity "points" in the direction from which power and communications  
cables will come.  
6. Center the form over the hole. Adjacent to the form, drive four stakes into  
the soil. Secure the leveled form to the stakes with the 8p nails.  
7. Cap the ends of the conduit with duct tape. Position the conduit and wire  
into place by securing the wire to nails in the form.  
8. Fill the hole and form with approximately ½ yard of concrete. Screed the  
concrete level with the top of the form. Center the template assembly over  
the conduit and press into the concrete. Put 2 x 4 spacers between the  
template and the top of the form. The bottom of the bolt threads should be  
about ½ inch above the concrete. The template must be level in two  
dimensions. Use a trowel and edger to finish.  
9. Wait 24 hours before removing the concrete form. Wait 7 days before  
mounting the ET Tower.  
2-2  
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Section 2. ET Tower Installation  
SIDE VIEW  
FORM  
TOP VIEW  
2"  
FORM WIRE  
NORTH  
ANCHOR BOLT  
24"  
24"  
SMALL  
CAVITY  
CEMENT PAD  
24"  
FORM WIRE  
TEMPLATE  
FIGURE 2.1-2. ET Tower Base Installation  
2.2 Tower Installation  
2.2.1 Supplied Components  
(1) Upper Tower Section (Tapered)  
(1) Lower Tower Section  
(6) ½ inch Washers  
(1) 12 foot 12 AWG Ground Cable  
(1) Tower Cap  
(1) 20' communications cable  
(1) 20' power cable  
Refer to Section 1 for components supplied by installer.  
2.2.2 Installation  
Attach the tower to the base as shown in Figure 2.2-1.  
1. Dig a hole close to the concrete base to access the lower conduit opening.  
From the hole, trench to the power and communications sources. Remove  
the duct tape from both ends of the conduit.  
2. Remove the template. Attach the two pieces of the tower. This is a  
permanent connection and cannot be undone. Lay the tower on the ground  
with the base next to the concrete foundation.  
3. Thread communications and power cables through the tower and conduit.  
Electrical fish tape will help.  
2-3  
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Section 2. ET Tower Installation  
4. Cut and save a 9 inch piece of 12 AWG ground wire from the 12 foot  
length provided. Thread the remaining 11 foot ground wire through the  
tower. Secure all wiring so it does not slip back into the tower or conduit.  
5. Place the tower cap over the tower end.  
6. Raise the tower on a still day. Place a washer on top of the two nuts on  
each foundation bolt. Taking great care not to damage cables between the  
tower and conduit, raise the tower and lower it onto the conduit and  
mounting bolts. Install a washer and nut on each bolt and hand tighten.  
Check plumb of the tower by placing a level on the north and east sides of  
the lower tower section. Adjust the topmost of the two lower nuts (leveling  
nut) on each bolt as necessary. When plumb is established, lock the  
leveling nut in place by tightening the lowest nut against it. Tighten the  
three top nuts with the wrench.  
Ground Lug  
12AWG Wire  
4AWG Cable  
FIGURE 2.2-1. Raising and Grounding the ET Tower  
2.3 Tower Grounding  
2.3.1 Supplied Components  
(1) 5 foot 4 AWG Ground Cable  
(1) Copper Ground Lug, Bolt  
(1) Ground Rod, Clamp  
Refer to Section 1 for components supplied by installer.  
2-4  
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Section 2. ET Tower Installation  
2.3.2 Grounding Procedure  
Ground the tower as shown in Figure 2.2-1.  
1. Place the ground rod clamp on the rod. Secure it about 3 inches from the  
top. Do this before the rod is driven into the ground. Be careful not to  
damage the clamp with the hammer  
2. Taking care not to damage power or communications lines, drive the  
ground rod close to the foundation using a fence post driver or sledge  
hammer. Drive the rod at an angle if an impenetrable hardpan layer exists.  
Soften hard clay soils with water if necessary.  
3. Strip 1 inch of insulation from both ends of the 4 AWG ground cable.  
Strip 1 inch of insulation from the lower end of the 14 AWG ground wire.  
Install the tower grounding lug to the tower base with the 7/16 bolt  
provided (Figure 2.1-5). Loosen the lug's set screw and insert the 4 AWG  
and 14 AWG wire. Tighten the set screw.  
4. Loosen the ground rod clamp. Insert the 4 AWG wire. Tighten the clamp  
(Figure 2.1-5).  
2-5  
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Section 2. ET Tower Installation  
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2-6  
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Section 3. ET Instrumentation  
Installation  
The weather station datalogger, power supply, sensor connection panel, communications  
devices, and data retrieval peripherals are mounted in the ET enclosure at the locations  
shown in Figure 3-1. Components include:  
(1) ET Enclosure  
(1) 4 unit Desiccant Pack  
(1) Flat Point Screw Driver  
(1) Power Supply Option  
(1) Telecommunications Option  
(1) 9-inch piece of 12 AWG ground wire  
(1) Lightning rod and clamp  
Logan, Utah  
M
A
D
E
I
N
U
S
A
ET101  
ET106  
FIGURE 3-1. ET101 and ET106 Instrumentation Mounted on the ET Tower  
3-1  
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Section 3. ET Instrumentation Installation  
3.1 Enclosure, Datalogger, Power Supply  
3.1.1 Battery Option Installation  
a) Alkaline Option: The BPALK houses 8 "D" cell batteries. Install it as  
shown in Figure 3.1-1. Remove the external circuit board with wire and  
connector by loosening the 2 Phillips head screws. Discard the external  
circuit board. Mount the BPALK into the enclosure. To install the battery  
pack, loosen the thumbscrew and remove the cover. Insert the battery pack  
and plug the battery lead into the connector labeled "ALK".  
Logan, Utah  
INTERNAL BATTERY  
BPALK  
12V ALKALINE BATTERY PACK  
TEMPORARY BATTERY  
MADE IN USA  
ALK Battery  
Connection  
FIGURE 3.1-1. Alkaline Power Mounting and Connections  
Solar Panel or 16 VAC  
Power Cable  
LA Battery Connection  
FIGURE 3.1-2. Rechargeable Power Mounting and Connections  
b) Sealed Rechargeable Battery Option: Install the kit as shown in Figure  
3.1-2. An unregulated solar panel or 17 to 24 VAC must be used with the  
rechargeable battery at all times. In either case, power is routed through  
the Heyco fitting on the enclosure back and connected to the CHG ports by  
depressing connector levers. Polarity of the CHG connection does not  
matter. Install the rechargeable battery and plug the battery lead into the  
connector labeled “LA”.  
3-2  
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Section 3. ET Instrumentation Installation  
3.1.2 Solar Panel Installation  
FIGURE 3.1-3. Solar Panel Mounting  
a) Mount the solar panel to the tower using the mounting brackets as shown  
in Figure 3.1-3. Mount the solar panel to the tower so it faces south  
(northern hemisphere). Position it as high off the ground as practical,  
ensuring it cannot interfere with air flow or sunlight around the sensors.  
The solar panel should be oriented to receive maximum insolation over the  
course of the year. Suggested tilt angles (referenced to the horizontal  
plane) are listed below.  
Site Latitude  
0 to 10 degrees  
11 to 20  
Tilt Angle  
10 degrees  
Latitude + 5 degrees  
Latitude + 10 degrees  
Latitude + 15 degrees  
80 degrees  
21 to 45  
46 to 65  
>65  
b) After determining the tilt angle, loosen the two bolts that attach the  
mounting bracket to the panel. Adjust the angle, then tighten the bolts.  
Secure the lead wire to the mast using wire ties. Make electrical  
connections as described in 2b above.  
3.1.3 AC Power Installation  
a) The AC power option includes a 120 VAC to 16 VAC. The transformer  
should be mounted inside a user-supplied junction box according to local  
electrical codes. Dangerous electrical accidents may be avoided by  
locating the transformer remotely and burying a low voltage line to the  
station. The low voltage will carry up to 500 feet on an 18 AWG power  
cable.  
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Section 3. ET Instrumentation Installation  
b) Shut off 110 VAC power at the main breaker. Connect the primary leads  
of the transformer to 110 VAC following instructions provided with the  
transformer. Connect a two-conductor cable to the secondary terminals of  
the transformer. Route the cable from the transformer to the ET Enclosure  
according to local electrical codes.  
3.1.4 Enclosure Installation  
1. Mount and ground the ET enclosure on the ET Tower as shown in Figure  
3.1-4.  
a) Place the enclosure low on the tower. Do not tighten clamps.  
b) Install the sensor arm (ET106) or reduced sensor set as described in  
Section 4.  
9-inch  
Ground  
Wire  
NORTH  
Tower  
Ground  
Wire  
FIGURE 3.1-4. Mounting and Grounding the ET Enclosure  
c) Slide the enclosure to the top of the ET tower. Position it on the north side  
of the tower (northern hemisphere). The top of the enclosure should be  
flush with the top of the tower, with the width of the sensor arm extending  
above the tower. Tighten the clamps until the enclosure is snug. Do not  
over-tighten since doing so may damage the tower or enclosure.  
d) Carefully mount the lightning rod and clamp to the top of the ET Tower.  
Clearance between the clamp and the enclosure is minimal. Care should be  
taken not to scratch the enclosure or sensor assembly. Strip 1 inch of  
insulation from the top end of the 12 AWG green tower ground wire, curl  
the end and place the curled end under the head of one of the lightning rod  
clamp bolts. Tighten the bolt.  
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Section 3. ET Instrumentation Installation  
e) Strip 1 inch of insulation from each end of the 9-inch piece of 12 AWG  
ground wire. Insert one end into the brass ground lug located at the top  
back of the enclosure. Curl the other end and place under the head of one  
of the lightning rod clamp bolts. Tighten the bolt.  
3.2 Sensor Connection  
1) Install the sensor set as described in Section 4.  
2) Remove the protective connector cover from the back of the ET Enclosure  
by removing the two Phillips head screws. Sensors connect to one of  
seven labeled bulkhead connectors as shown in Figure 3.2-1.  
Earth  
Ground  
Stand off  
Connector Sensors  
TEMP  
CS615  
#4  
WS/WD  
#2  
#6  
SDI 12  
GYP BLOCK  
TEMP  
#7  
#5  
RAIN  
(PRECIP)  
#1  
#3  
#8  
TEMP / RH  
SOLAR  
RADIATION  
COMM  
CS I/O  
POWER CABLE PORT  
STAND OFF  
COAXIAL CONNECTION  
FIGURE 3.2-1. Position of Sensor Bulkhead Connectors  
3) Replace the protective connector cover after sensors are connected and  
power and communications cables are installed. Ensure that all cables and  
connector caps are under the cover before tightening the screws.  
4) Configure sensor switch settings as shown in Figure 3.2-2 if necessary.  
3-5  
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Section 3. ET Instrumentation Installation  
604 Ohm  
Open  
(LI190SB)  
(LI1200X)  
(LI200S)  
100 Ohm  
1 K  
(HMP35C)  
Open  
Open  
(CS500, HMP45C)  
SW 12V  
Open  
5V  
(CS500, HMP45C)  
(HMP35C)  
FIGURE 3.2-2. Default Sensor Switch Settings  
3.3 Communication and Data Storage Peripherals  
One communications kit can be mounted to the ET Enclosure back plate.  
Communications kits ordered with the ET Enclosure are pre-mounted and pre-  
wired; no further connections inside the enclosure are necessary. Follow the  
"External Installation" procedures outlined below to make the external  
connections.  
If you received a telecommunications kit separate from the ET Enclosure,  
follow the "Internal Installation" procedures outlined below.  
3.3.1 Phone Modems  
Phone modems enable communications between the ET Enclosure and a Hayes  
compatible modem in your PC over a dedicated phone line. Phone line surge  
protection in built into the ET Enclosure.  
P/N 10588 Cable  
RJ11 Patch  
Cord  
Ground  
Wire  
Modem  
FIGURE 3.3-1. Phone Modem Mounting and Connections  
3-6  
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Section 3. ET Instrumentation Installation  
3.3.1.1 Internal Installation  
For installation inside the ET Enclosure, the following components are  
provided in the phone modem kit:  
(1) COM200 or COM300 Phone Modem  
(1) 12 inch RJ-11 Patch Cord  
(1) Mounting Bracket  
(4) Screws  
(1) 12 inch 14 AWG Ground Wire  
Install the phone modem as shown in Figure 3.3-1.  
1. Attach the modem to the modem bracket with the 4 screws provided.  
Mount the modem and bracket into the ET Enclosure with the 3 pre-  
threaded screws on the mounting plate.  
2. Connect the modem 9-pin port to the ET Enclosure port with the  
P/N 10588 ribbon cable supplied with the ET Enclosure.  
3. Connect the modem RJ-ll jack to the ET Enclosure RJ-11 jack with the RJ-  
ll patch cord.  
4. Connect the modem ground port to the ET Enclosure ground with the 14  
AWG ground wire.  
3.3.1.2 External Installation  
The following modem kit components are used to make the external  
connections:  
(1) Direct Bury Splice Kit  
(1) 20 foot Telephone Patch Cord with Connector  
1) Connect the 20 foot patch cord to connector #8 on the external back panel,  
under the protective cover.  
2) Splice the labeled "Tip" and "Ring" lines of the patch cord to the telephone  
service line. Use the direct bury splice kit when splices are in a valve box  
or buried.  
3.3.2 Cellular Phone Transceiver  
Do not power the transceiver until the antenna is  
connected!  
CAUTION  
Cellular service and programming of your transceiver must be coordinated with  
your local cellular provider. Cellular service enables communication between  
the ET Enclosure and the Hayes compatible modem at your PC without  
hardwire connections. The cellular transceiver kit must be purchased with one  
of the phone modem kits.  
3-7  
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Section 3. ET Instrumentation Installation  
3.3.2.1 Internal Installation  
For installation inside the ET Enclosure, the following components are  
provided in the cell phone modem kit:  
(1) COM100 Transceiver, Power Connector  
(1) Mounting Bracket  
(6) Screws  
(1) 12 inch Coaxial Patch Cable  
Install the phone modem and cellular transceiver as shown in Figure 3.3-2.  
1. Attach the modem to the modem bracket with 4 of the screws provided.  
Attach the cellular transceiver with 2 of the screws provided. Mount the  
bracket into the ET Enclosure with the 3 pre-threaded screws on the  
mounting plate.  
2. Mount the RJ11C Interface to the side of the battery bracket.  
3. Connect the modem 9-pin port to the ET Enclosure port with the blue 9 pin  
ribbon cable supplied with the ET Enclosure.  
4. Connect the modem RJ-ll jack to the RJ11C Interface with the RJ-ll patch  
cord. Connect the cellular transceiver coaxial connection to the bulkhead  
coaxial connector with the coaxial patch cable.  
5. Connect the modem ground terminal to the recessed ET Enclosure ground  
with the 14 AWG ground wire.  
6. Do this step after the antenna is connected (Section 3.3.2.2). Connect the  
transceiver power cord assembly to the transceiver's 25 pin connector.  
Connect the red 12 V lead to the 12V terminal in the ET Enclosure.  
Connect the black ground lead to the GND terminal. Connect the green  
power control lead to the RCV+ and terminal.  
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Section 3. ET Instrumentation Installation  
Motorola M600  
Transceiver  
COM200 or VS1  
Telephone Modem  
Green Modem  
Ground Wire to  
Modem “GND”  
Terminal  
Green Modem Ground  
Wire to Recessed  
“GND” Lug  
Cellular Power  
Connector  
Blue 9 Pin  
Ribbon Cable  
(1 Extra Connector)  
RJ11C  
Patch Cord  
Cellular Handset  
Connector  
(normally not used)  
Black Transceiver  
Ground Wire to “GND”  
Power  
Indicator  
(do not press)  
Red Transceiver  
12 Volt Wire  
to “12 V”  
RJ11C Interface  
Green Transceiver  
Control Wire to“RCV+”  
(Program Control Port 2)  
Coax Bulkhead  
Connector  
Antenna Coax  
Cable  
Battery  
FIGURE 3.3-2. Cellular Phone Mounting and Connection  
3-9  
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Section 3. ET Instrumentation Installation  
3.3.2.2 External Installation  
The following cellular kit components are used to make the external  
connections:  
(1) Cellular Antenna  
(1) 9 foot Coaxial Antenna Cable  
(1) Antenna Mounting Bracket  
FIGURE 3.3-3. Cellular Phone Antenna Mounting  
1) Mount the antenna to the ET Tower as shown in Figure 3.3-3.  
2) Connect the antenna to the external coaxial bulkhead connector with the  
9-foot antenna cable.  
3.3.3 Short-Haul Modem  
Short-haul modems enable communication between a datalogger and computer  
over two twisted pairs of wires. The maximum distance between modems is  
determined by baud rate and wire gauge. At 9600 baud, the approximate range  
is 4.0 miles. DCE / DTE switches on the modems are set to DCE.  
C
Q
5
0 5  
1
E
/ N  
D
T
L
L
L
I C  
-
S
E
I F  
B
T
P
N
3 2  
M
E
9
A
C
C
S
C
S
FIGURE 3.3-4. Short-Haul Modem Mounting and Connection  
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Section 3. ET Instrumentation Installation  
3.3.3.1 Internal Installation  
For installation inside the ET Enclosure, the following components are  
provided in the short-haul modem kit:  
(1) SC932C Interface  
(1) Rad Modem  
(1) Rad/SC932C Mounting Bracket  
(4) Screws  
(1) 12 inch 4-wire patch cable  
Install the short-haul modems as shown in Figure 3.3-4 and 3.3-5.  
1. Mount the Rad / SC932C mounting bracket into the ET Enclosure with the  
3 pre-threaded screws provided.  
2. Connect the Rad Modem and SC932C. Strap them into the mounting  
bracket under the Velcro strap.  
3. Connect the SC932C 9-pin port to the internal ET Enclosure 9-pin port  
with the blue ribbon cable provided.  
4. Wire the Rad Modem to the ET Enclosure with the 12-inch patch cord.  
Match wire labels to wiring panel labels on both the ET Enclosure and the  
Rad Modem (+XMT to +XMT, etc.). A small screwdriver in provided  
with the ET Enclosure to access the Rad Modem connections.  
3.3.3.2 External Installation  
The following short-haul kit components are used to make the external  
connections:  
At the ET Enclosure:  
(1) 20 foot 4-Wire Patch Cable  
(2) 2 Direct Bury Splice Kits  
(1) Length of User Supplied Wire (Supplier: Anixter, p/n F-02P22BPN,  
Phone 847-677-2600)  
At the PC:  
(1) Rad Modem  
(1) 5 foot 4-wire Patch Cable  
(1) 10 foot 14 AWG Ground Wire  
(1) Surge Protector and Case  
1) Connect the 20 foot patch cable to connector #8 on the external back panel  
of the ET Enclosure. Splice this cable to the user supplied cable, using the  
direct bury splice kits.  
2) Mount the surge protector to a flat surface within 10 inches of the PC's  
serial port. Ground the center terminal to an earth (or building) ground  
using the 14 AWG wire.  
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Section 3. ET Instrumentation Installation  
3) Connect the 5-foot patch cord to the Rad Modem. Fasten the cable to the  
strain relief tab with a cable tie. Connect the Rad to the PC's serial port  
either directly (25 pin port) or through a 9 to 25 pin serial converter.  
4) Route the user-supplied cable from the remote splice to the surge protector.  
Connect it and the 5-foot patch cord to the surge protector.  
- RCV (white)  
+ RCV (green)  
- XMT (black)  
+ XMT (red)  
+ RCV (red)  
- RCV (black)  
+ XMT (green)  
- XMT (white)  
To # 8  
External Connector  
Surge  
Protector  
PC  
Splices  
User  
Supplied  
Cable  
1
2
+ RCV  
SRM-5A  
RED  
1
2
3
4
+ RCV (red)  
- RCV (black)  
+ XMT (green)  
- RCV  
BLACK  
- XMT (white)  
3
4
+ XMT  
GREEN  
WHITE  
- XMT  
Earth Ground  
FIGURE 3.3-5. Short-Haul Modem Wiring Diagram  
3.4 Sealing and Desiccating the Enclosure  
The ET Enclosure is supplied with a desiccant pack. The desiccant maintains a  
low humidity in the enclosure to minimize the chance of condensation on the  
instrumentation. Desiccant should be changed when the internal ET Enclosure  
humidity sensor measures 30% or higher. Install the desiccant as shown in  
Figure 3.4-1. Keep unused desiccant tightly sealed in an airtight container.  
1) Take the desiccant pack out of its sealed plastic bag. Place it under the  
desiccant strap just before leaving the station.  
2) Be sure to close the enclosure hasp securely. A padlock may be used on  
the latch for extra security.  
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Section 3. ET Instrumentation Installation  
Desiccant  
Pack  
O
O
FIGURE 3.4-1. Desiccant Installation  
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Section 4. ET106 Sensor Arm  
Installation  
4.1 Components  
(1) ET106 Sensor Arm  
(1) Met One 034A Wind Sensor  
(1) 034A Mounting Shaft  
(1) Radiation Shield  
4.2 Installation  
Install the ET106 Sensor Arm after the ET Enclosure is mounted low on the ET  
Tower. You may need to temporarily remove communications option. Mount  
the sensor arm as shown in Figure 4.2-1 without the wind sensor attached.  
ET Sensor  
ET Enclosure  
Arm  
Screws  
(4)  
FIGURE 4.2-1. ET106 Sensor Arm Mounting  
1) Remove the cover from the ET Enclosure  
2) Place the sensor arm on top of the enclosure, lining up the four threaded  
holes on the under side of the arm with the four holes in the top of the  
enclosure. Attach the arm to the enclosure by inserting and tightening four  
Phillips head screws. Adjust the position of the ET Enclosure so that the  
sensor arm is oriented along a due east to due west axis.  
4.3 Sensor Connection  
Refer to Section 3 for sensor connection details.  
4-1  
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Section 4. ET106 Sensor Arm Installation  
4.4 034A Wind Sensor Installation  
Install the 034A Wind Sensor as shown in Figure 4.4-1 after the sensor arm is  
securely installed. The wind vane is oriented after the datalogger has been  
programmed (Section 5), and the location of True North has been determined  
(Section 1.2). Orientation is most easily done with two people, one to aim and  
adjust the sensor, while the other observes the wind direction displayed by  
CR10KD Keyboard Display or a laptop PC.  
FIGURE 4.4-1. Wind and RH/Temperature Sensor Installation  
1) Place the 034A in the 034A Mounting Shaft pointing the vane due south.  
Tighten the alignment screw.  
2) Attach the 034A and mounting shaft to the sensor arm. Insert the mounting  
shaft into the U-bolt clamp. Adjust sensor height to 2 or 3 meters by  
moving the mounting shaft up or down in the clamp. Lightly tighten clamp  
nuts.  
3) Attach the 034A connector to the 034A.  
4) Establish a reference point on the horizon for True North.  
5) Sighting down the instrument center line, aim the counter weight at True  
North. Display input location #8 (Section 4.6) for wind direction using the  
*6 Mode of the datalogger, or the Monitor Mode of PC208.  
6) While holding the wind vane position, slowly rotate the sensor base until  
the datalogger indicates 0 degrees. Securely tighten the clamp nuts.  
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Section 4. ET106 Sensor Arm Installation  
4.5 RH and Temperature Radiation Shield  
Mount the radiation shield to the sensor arm as shown in Figure 4.4-1. Place  
the RH and temperature assembly inside the shield shaft. Attach the shield to  
the sensor arm with the two screws.  
4.6 Pyranometer  
Level the pyranometer as indicated in Figure 4.6-1. Adjust the three leveling  
screws until the bubble level indicates plumb. Remove the red cap from the  
pyranometer.  
Leveling  
Screws  
FIGURE 4.6-1. Pyranometer Leveling  
4.7 Soil Temperature Sensor (Optional)  
Bury the soil temperature sensor at the desired depth. To minimize solar  
loading of the sensor cable, bury the cable between the tower base and the  
sensor.  
4.8 Sensor Verification and Clock Set  
Check the measurements of all sensors after the datalogger is programmed.  
Display measurements using the *6 Mode with the CR10KD (refer to the  
laminated prompt sheet, or the Monitor Mode of the PC208 Datalogger  
Support Software.  
4-3  
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Section 4. ET106 Sensor Arm Installation  
Input  
Normal  
Range  
Location Parameter  
1
Battery (Volt)  
9.6 to 14.0 Volts  
2
Enclosure Temperature (°C) Close to air temperature  
3
Air Temperature (°C)  
Air Temperature (°F)  
RH (%)  
-40° to +50°  
-40° to +122°  
0 to 100%  
4
5
6
Solar Radiation(kW m-2)  
Wind Speed (mph)  
Wind Direction (°)  
Rain Fall (inches)  
Soil Temperature 107  
Enclosure RH  
0 to 1.2 kW m-2  
0 to 110 mph  
0 to 359  
7
8
9
0 to .2  
10  
28  
-40° to +122°F  
-40° to +50°C or 0% to 30% when  
sealed for several hours  
Display and set clock time using the *5 mode with the CR10KD (refer to the  
laminated prompt sheet).  
4.9 Upgrading an ET101 to an ET106  
The ET101 can be upgraded to an ET106 by installing part number 10574  
ET101 to ET106 Upgrade Kit as shown in Figure 4.9-1, 4.9-2, and 4.9-3.  
1) Loosen the three leveling screws on the ET101 sensor bracket. Remove  
the bracket.  
2) Move the three leveling screws on the bracket as shown.  
3) Remove the white temperature sensor from the bracket by removing the  
three screws under its base.  
4) Reverse the orientation of the bracket, and place it on the upgrade arm.  
Thread the three leveling screws into the pre-threaded holes two to three  
turns.  
5) Install the sensor arm as described in Sections 4.1 to 4.7.  
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Section 4. ET106 Sensor Arm Installation  
ET101 to ET106  
Logan, Utah  
MADE IN USA  
FIGURE 4.9-1. Upgrading the ET101 to an ET106  
FIGURE 4.9-2. Modifying the Pyranometer Plate  
4-5  
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Section 4. ET106 Sensor Arm Installation  
Metal Washers  
FIGURE 4.9-3. Installing Leveling Screws  
4.10 Sensor Schematics  
Schematics of ET106 sensors and associated connectors are provided in  
Figures 4.10-1, 4.10-2, 4.10-3, and 4.10-4 for help in troubleshooting.  
Knowledge of the schematics is not necessary for routine installation and  
maintenance.  
3
2
4
6
5
1
Connector  
Pin  
Air Temperature and  
Relative Humidity  
Sensor  
Datalogger  
1
2
3
4
5
6
Relative Humidity (0-1VDC)  
Air Temperature (0-1VDC)  
Not Used  
1 H  
1 L  
12V Switched Supply  
Analog Ground  
12VDC Switched  
Supply  
AG  
Shield  
G
FIGURE 4.10-1. Schematic of CS500-LC RH and Temperature Probe and Connector #1  
4-6  
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Section 4. ET106 Sensor Arm Installation  
Wind Speed and Wind Direction  
Connector  
Pin  
Datalogger  
E2  
10K OHM  
Excitation  
3
Wind Direction  
1K OHM  
1
Signal Return  
10K OHM  
2H  
3
Potentiometer  
2
4
6
5
1
2
4
Analog Ground  
AG  
P1  
Pulse  
Wind Speed  
Magnetically  
Activated Reed  
Switch  
5
6
Ground  
Shield  
G
G
FIGURE 4.10-2. Schematic of 034A-LC Wind Speed and Direction Probe and Connector #2  
3
2
4
6
5
1
Connector  
Pin  
Datalogger  
3 H  
Solar Radiation  
Sensor  
1
40.2 - 90.2 OHM  
2
3 L  
3
4
5
6
Not Used  
Not Used  
Not Used  
Shield  
G
FIGURE 4.10-3. Schematic of LI200X-LC Solar Radiation Sensor and Connector #3  
4-7  
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Section 4. ET106 Sensor Arm Installation  
Connector  
Pin  
Tipping Rain Bucket  
1
2
Not Used  
Not Used  
3
2
4
6
5
1
4
3
Not Used  
Pulse  
Datalogger  
P2  
Magnetically  
Activated Reed  
Switch  
5
6
Ground  
Shield  
G
G
FIGURE 4.10-4. Schematic of TE525-LC Rain Sensor and Connector #5  
4-8  
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Section 5. ET Software Installation  
The ET Evapotranspiration Stations are supported by PC120 "ETPro" for MS-DOS.  
ETPro is used to write and download the station program, and to retrieve and report data.  
ETPro works in conjunction with PC208 Datalogger Support Software. PC120 and  
PC208 each have their own manual, which should be consulted for installation procedures  
and operational details.  
5.1 Quick Start Review  
1) Start PC120 by entering "ET" at the DOS prompt (refer to the PC120  
manual).  
2) Create the ET datalogger program by clicking your mouse cursor on the  
main screen "Edit," then on "Create Station Program" (Edit | Create Station  
Program). Follow the prompts until you return to the main screen.  
3) Click on "Edit | Communications Param." to set up the PC-to-ET  
telecommunications link. Check the link by attempting to set the clock  
(Maintenance | Set Clock).  
4) Download the program by selecting "Maintenance | Download Station  
Prog."  
5) After at least an hour, retrieve data from the ET datalogger to a comma  
delimited ASCII file called WEATHER.DAT by selecting "Data | Collect  
Data."  
6) Weather reports can be generated by selecting "Reports | Hourly  
Summary" or "Reports | Daily Summary."  
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Section 6. Maintenance and  
Troubleshooting  
These guidelines apply to several different Campbell Scientific weather stations.  
6.1 Maintenance  
Proper maintenance of weather station components is essential to obtain  
accurate data. Equipment must be in good operating condition, which requires  
a program of regular inspection and maintenance. Routine and simple  
maintenance can be accomplished by the person in charge of the weather  
station. More difficult maintenance such as sensor calibration, sensor  
performance testing (i.e., bearing torque), and sensor component replacement,  
generally requires a skilled technician, or that the instrument be sent to  
Campbell Scientific or the manufacturer.  
A station log should be maintained for each weather station that includes serial  
numbers, dates that the site was visited, and maintenance that was performed.  
6.1.1 Instrumentation Maintenance  
The instrumentation requires a minimum of routine maintenance. A few  
preventative maintenance steps will optimize battery life and decrease the  
chances of datalogger failure.  
6.1.2 Batteries  
Instruction 10 can be used to measure battery voltage. By recording battery  
voltage the user can determine how long a fresh set of batteries will last (see the  
Installation Section of the datalogger Operator's Manual for cold temperature  
effects on alkaline batteries). Short Cut and ETPro automatically program the  
weather station to measure battery voltage.  
When alkaline batteries are used, the battery voltage should not be allowed to  
drop below 9.6 VDC before replacement. Where CR10 or 21X dataloggers are  
used in the instrumentation, an external battery must be used to maintain power  
to the datalogger when changing batteries, otherwise the clock, program, and  
data will be lost (refer to the Installation Section of the datalogger's Operator's  
Manual for details). When not in use, remove the eight cells to eliminate  
potential corrosion of the contact points, and store in a cool dry place.  
Rechargeable power supplies should be connected to an AC transformer or  
unregulated solar panel at all times. The charge indicating diode should be  
"ON" when voltage to the charging circuitry is present. Be aware of battery  
voltage that consistently decreases over time, which indicates a failure in the  
charging circuitry.  
6-1  
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Section 6. Maintenance and Troubleshooting  
6.1.3 Desiccant  
Enclosure humidity is monitored in the ET Enclosure and MetData1 systems by  
an RH chip incorporated into the connector board. Change the desiccant packs  
when the enclosure RH exceeds 35%. The RH chip should be changed every 3  
to 5 years.  
In standard weather stations, a humidity indicator card is provided with the  
enclosure. A small RH sensor (10162) can be purchased separately to record  
the RH inside the enclosure. Change the desiccant when either the card or the  
sensor read about 35% RH.  
Desiccant may be ordered through Campbell Scientific (DSC 20/4).  
Desiccant packs inside of the dataloggers do not require replacement under  
normal conditions.  
6.1.4 Sensor Maintenance  
Sensor maintenance should be performed at regular intervals, depending on the  
desired accuracy and the conditions of use. A suggested maintenance schedule is  
outlined below.  
1 week  
Check the pyranometer for level and contamination. Gently clean, if  
needed.  
Visually inspect the wind sensors and radiation shield.  
1 month  
Check the rain gage funnel for debris and level.  
Do a visual/audio inspection of the anemometer at low wind speeds.  
Check the filter of the temperature/humidity sensor for contamination.  
General Maintenance  
An occasional cleaning of the glass on the solar panel will improve its  
efficiency.  
Check sensor leads and cables for cracking, deterioration, proper routing,  
and strain relief.  
Check the tripod or tower for structural damage, proper alignment, and for  
level/plumb.  
6 months  
Clean the temperature/humidity sensor.  
Clean the Gill Radiation Shield.  
6-2  
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Section 6. Maintenance and Troubleshooting  
1 year  
Replace anemometer bearings.  
Calibrate the rain gage.  
Calibrate the HMP45C/HMP35C probe.  
Check calibration of CS500 RH Probe; replace RH chip if necessary.  
Check internal RH chip (MetData1 and ET101/106 only). Replace if >5%  
off.  
2 years  
Calibrate the solar radiation sensors (some users suggest yearly).  
Calibrate the temperature sensor.  
Replace the wind vane potentiometer and bearings.  
4 - 5 years  
Replace sensor cables as required.  
6.2 Troubleshooting  
6.2.1 No Response Using the Keypad  
Check keypad response after each of the following steps.  
A. Make sure the battery has been installed, and the power switch, if any, is  
"ON" (Section 7).  
B. Use a voltmeter to measure the voltage on the 12 V and G terminals; the  
voltage must be between 9.6 and 16 VDC.  
C. Disconnect any sensor or peripheral wires connected to the 5 V and 12 V  
terminals.  
D. Disconnect any communications or storage peripherals from the  
datalogger.  
E. Reset the datalogger by turning the power switch to "OFF", then to "ON"  
or disconnecting and reconnecting the battery.  
F. If still no response, call Campbell Scientific.  
6.2.2 No Response from Datalogger through SC32A or Modem  
Peripheral  
At the datalogger:  
A. Make sure the battery has been installed, and the power switch, if any, is  
"ON" (Section 7).  
B. Use a voltmeter to measure the voltage on the 12 V and G terminals; the  
voltage must be between 9.6 and 16 V DC.  
6-3  
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Section 6. Maintenance and Troubleshooting  
C. Make sure the datalogger is connected to the modem, and the modem is  
properly configured and cabled (Section 9).  
At the computer:  
D. Make sure the Station File is configured correctly (PC208 Manual).  
E. Check the cable(s) between the serial port and the modem. If cables have  
not been purchased through Campbell Scientific, check for the following  
configuration using an ohm meter:  
25-pin serial port:  
computer end  
modem end  
2
2
3
3
7
7
20  
20  
9-pin serial port:  
computer end  
modem end  
2
3
4
5
3
2
20  
7
F. Make sure the modem is properly configured and cabled (Section 9).  
G. If still no response, call Campbell Scientific.  
6.2.3 -99999 Displayed in an Input Location  
A. Make sure the battery voltage is between 9.6 and 16 VDC.  
B. With the MetData1 or ET106, verify that the sensor is connected to the  
proper bulkhead connector. With custom weather stations, verify the  
sensor is wired to the analog channel specified in the measurement  
instruction or Short Cut .FSL file (single-ended channels are not labeled on  
the older silver-colored wiring panels and are numbered sequentially  
starting at 1H; i.e. 1L is single-ended channel 2).  
C. Make sure the Range parameter in the measurement instruction covers the  
full scale voltage output by the sensor.  
6.2.4 Unreasonable Results Displayed in an Input Location  
A. Inspect the sensor for damage and/or contamination.  
B. Make sure the sensor is properly wired to the datalogger.  
C. Check the multiplier and offset parameters in the measurement instruction.  
6-4  
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Section 6. Maintenance and Troubleshooting  
6.2.5 6999 or 99999 Stored in Final Storage (or Storage  
Module)  
A. Final Storage format limitations exceeded (any number larger than 6999 in  
low resolution, or 99999 in high-resolution format is stored as the  
maximum number). Change the datalogger program.  
6-5  
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Section 6. Maintenance and Troubleshooting  
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6-6  
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Campbell Scientific Companies  
Campbell Scientific, Inc. (CSI)  
815 West 1800 North  
Logan, Utah 84321  
UNITED STATES  
Campbell Scientific Africa Pty. Ltd. (CSAf)  
PO Box 2450  
Somerset West 7129  
SOUTH AFRICA  
Campbell Scientific Australia Pty. Ltd. (CSA)  
PO Box 444  
Thuringowa Central  
QLD 4812 AUSTRALIA  
Campbell Scientific do Brazil Ltda. (CSB)  
Rua Luisa Crapsi Orsi, 15 Butantã  
CEP: 005543-000 São Paulo SP BRAZIL  
Campbell Scientific Canada Corp. (CSC)  
11564 - 149th Street NW  
Edmonton, Alberta T5M 1W7  
CANADA  
Campbell Scientific Ltd. (CSL)  
Campbell Park  
80 Hathern Road  
Shepshed, Loughborough LE12 9GX  
UNITED KINGDOM  
Campbell Scientific Ltd. (France)  
Miniparc du Verger - Bat. H  
1, rue de Terre Neuve - Les Ulis  
91967 COURTABOEUF CEDEX  
FRANCE  
Campbell Scientific Spain, S. L.  
Psg. Font 14, local 8  
08013 Barcelona  
SPAIN  
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