USER'S GUIDE Vaisala Automatic Weather Station AWS330 M211296EN-B
PUBLISHED BY Vaisala Oyj P.O. Box 26 FI-00421 Helsinki Finland Phone (int.): +358 9 8949 1 Fax: +358 9 8949 2227 Visit our Internet pages at www.vaisala.com. © Vaisala 2012 No part of this manual may be reproduced, published or publicly displayed in any form or by any means, electronic or mechanical (including photocopying), nor may its contents be modified, translated, adapted, sold or disclosed to a third party without prior written permission of the copyright holder.
________________________________________________________________________________ Table of Contents CHAPTER 1 GENERAL INFORMATION............................................................................ 9 About This Manual ................................................................... 9 Contents of This Manual ....................................................... 9 Version Information ............................................................. 10 Related Manuals ................................
User's Guide ______________________________________________________________________ CHAPTER 4 INSTALLATION............................................................................................31 Necessary Equipment ............................................................31 Requirements for Software Configuration...........................32 Selecting Location..................................................................33 Ambient Measurements ..................................................
________________________________________________________________________________ Grounding Enclosure .......................................................... 94 Preparing GSM/GPRS Modem ........................................... 94 Connecting Sensor Cables.................................................... 95 Static Pressure Head .......................................................... 95 Transient Protection Devices................................................ 96 Battery Regulator ................
User's Guide ______________________________________________________________________ Changing Sensor Configuration .........................................149 Opening Service Connection.............................................150 Giving Commands .............................................................152 Closing Service Connection ..............................................153 Station Parameter Backup and Restore............................153 Working with Data Log Files.........................
________________________________________________________________________________ Pyranometer CMP6 .............................................................. 183 Periodic Maintenance........................................................ 183 Replacing CMP6 ............................................................... 184 Soil Temperature Sensor QMT110...................................... 185 Visual Checking ................................................................
User's Guide ______________________________________________________________________ Troubleshooting Mechanical Wind Sensor Set WA15 ......232 WA15 Wind Vane ..............................................................232 WA15 Anemometer ...........................................................233 WA15 Crossarm ................................................................233 Troubleshooting Power Supply Units ................................234 Technical Support .......................................
________________________________________________________________________________ APPENDIX A WIRING DIAGRAMS .................................................................................. 263 AWS330 System Basic Wiring Diagrams ......................... 263 APPENDIX B CALCULATION FORMULAS .................................................................... 273 Dewpoint Temperature ........................................................ 273 Heat Index ...................................................
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Chapter 1 ________________________________________________________ General Information CHAPTER 1 GENERAL INFORMATION This chapter provides general notes for the manual and AWS330. About This Manual NOTE Your weather station delivery may include separate instructions for the individual sensors. For your convenience, refer to this manual for all information on AWS330. This manual provides information for installing, operating, and maintaining Vaisala Automatic Weather Station AWS330.
User's Guide ______________________________________________________________________ - Appendix A, Wiring Diagrams Appendix B, Calculation Formulas Appendix C, Example Messages Appendix D, Sensor Status Values Version Information Table 1 Manual Code M211296EN-B M211296EN-A Manual Revisions Description This version. Revised electrical wiring diagrams, electrical installation instructions, and QMT110 installation. First version of this manual.
Chapter 1 ________________________________________________________ General Information Product-Related Safety Precautions The Vaisala Automatic Weather Station AWS330 delivered to you has been tested for safety and approved as shipped from the factory. Note the following precautions: WARNING All electrical installations must be carried by licensed experts as governed by local and state authorities, legislation, and regulations.
User's Guide ______________________________________________________________________ Recycling Recycle all applicable material. Dispose of batteries and the unit according to statutory regulations. Do not dispose of with regular household refuse. Regulatory Compliances The Vaisala Automatic Weather Station AWS330 complies with the following EU directives: - Low Voltage Directive (2006/95/EC) - EMC-Directive (2004/108/EC) Trademarks HUMICAP®, WINDCAP®, RAINCAP® are registered trademarks of Vaisala Oyj.
Chapter 1 ________________________________________________________ General Information Redistribution License Agreement The QML logger software uses the TCP/IP stack produced by the "lwIP Lightweight TCP/IP stack" -project with the following copyright and license: Copyright © 2001, 2002 Swedish Institute of Computer Science. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. 2. 3.
User's Guide ______________________________________________________________________ Warranty For certain products Vaisala normally gives a limited one-year warranty. Visit our Internet pages for more information and our standard warranty terms and conditions: www.vaisala.com/services/warranty.html. Please observe that any such warranty may not be valid in case of damage due to normal wear and tear, exceptional operating conditions, negligent handling or installation, or unauthorized modifications.
Chapter 2 __________________________________________________________ Product Overview CHAPTER 2 PRODUCT OVERVIEW This chapter introduces the features, advantages, and the product nomenclature. Introduction to AWS330 Vaisala Automatic Weather Station AWS330 is a WMO-compliant, standard weather station with a set selection of sensors.
User's Guide ______________________________________________________________________ The following numbers refer to Figure 1 on page 17: 1 2 3 4 5 6 7 = = = = = = = 8 9 10 11 12 13 14 = = = = = = = Ultrasonic Wind Sensor WMT703 Mechanical Wind Sensor Set WA15 Lightning rod Guy wire GSM/GPRS antenna Mast Air Temperature and Relative Humidity Probe HMP155 and Radiation Shield DTR503A Solar Panel SOLAR33 Enclosure Sensor support Snow Depth Sensor IRU-9429 Pyranometer CMP6 Rain gauge RG13(H) Winch 16 _____
Chapter 2 __________________________________________________________ Product Overview 1011-006 Figure 1 Complete AWS330 System and Dimensions Ultrasonic Wind Sensor WMT703 and Mechanical Wind Sensor Set WA15 (numbers 1 and 2 in Figure 1 above) are used as alternatives to each other for measuring wind speed and direction. In addition, AWS330 can feature one or two QMT110 soil temperature sensors.
User's Guide ______________________________________________________________________ Product Nomenclature Table 2 Vaisala Automatic Weather Station AWS330 Nomenclature Code DKP210 DKP12SUP HMP155 DTR503A RG13(H) RGSTAND1140 QML201C BARO-1 WMT703 IRU-9429 WA15 - WAA151 - WAV151 - WAC151 QMT110 CMP6 AWS Client QMD202 SOLAR33 Common Name Mast Sensor support Air temperature and relative humidity probe Radiation shield for HMP155 Rain gauge (with heating) Rain gauge stand Data logger Pressure sensor housed in
Chapter 3 ______________________________________________________ Functional Description CHAPTER 3 FUNCTIONAL DESCRIPTION This section describes the operating principles of AWS330. Operating Principles Sensors are measured by AWS330 system as: - Voltage or resistance input converted to measurement value by analog to digital conversion. For example, Pt100 temperature. - Discrete pulse input converted to measurement value by counter. For example, Rain Gauge RG13(H).
User's Guide ______________________________________________________________________ Figure 2 below illustrates the general AWS330 application functionality with full sensor configuration.
Chapter 3 ______________________________________________________ Functional Description Sensor Reading Reading frequencies for AWS330 sensors are listed in Table 3 below.
User's Guide ______________________________________________________________________ Observation Values Depending on the selected sensor configuration, the AWS330 system produces various statistical and derived meteorological outputs. The following tables list outputs by category. Values with 1 minute or shorter period are regarded as instant values, that is, they are averaged from several samples. These values are used further to calculate statistical values for longer periods.
Chapter 3 ______________________________________________________ Functional Description Atmospheric Pressure/Vapor Pressure Table 5 Reported Parameter Atmospheric pressure QFE pressure QFE pressure QFE pressure QFE pressure QFE pressure QFE pressure QFE pressure QFF pressure QFF pressure QFF pressure QFF pressure QFF pressure QFF pressure QFF pressure QNH pressure QNH pressure QNH pressure QNH pressure QNH pressure QNH pressure QNH pressure Pressured trend Pressured tendency (2 Water vapor pressure (1 (2
User's Guide ______________________________________________________________________ Wind The wind calculation method is scalar. See section Wind Calculation Formulas on page 280 for wind calculation formulas.
Chapter 3 ______________________________________________________ Functional Description Soil/Water Temperature Table 8 Reported Parameter Soil/water temperature 1 Soil/water temperature 1 Soil/water temperature 1 Soil/water temperature 1 Soil/water temperature 1 Soil/water temperature 1 Soil/water temperature 1 Soil/water temperature 2 Soil/water temperature 2 Soil/water temperature 2 Soil/water temperature 2 Soil/water temperature 2 Soil/water temperature 2 Soil/water temperature 2 Parameters for Soil/Wa
User's Guide ______________________________________________________________________ Alarms AWS330 system can be enabled to send alarm messages based on selected observation values and technical alarms based on system and sensor status.
Chapter 3 ______________________________________________________ Functional Description Message Formats Observation Messages Observation messages are fixed, and always contain all observations and calculation outputs, regardless if individual sensors are present or not. Observation values and results derived from missing sensors are presented by one or more slash '/' characters in place of the value. CSV CSV message consists of header and tag/value pairs separated by semicolons.
User's Guide ______________________________________________________________________ Table Table message is a message in readable format with instant values and sensor status values.
Chapter 3 ______________________________________________________ Functional Description SMS SMS message is a very short message containing only the basic observations. The message size is limited to 160 characters to fit into a single SMS. Value tags are also different from CSV message tags.
User's Guide ______________________________________________________________________ Alarm Messages Alarms are sent using plain text messages formatted in similar manner as observation message CSV. The actual message does not contain linefeeds; the description below is split into two lines for readability.
Chapter 4 _______________________________________________________________ Installation CHAPTER 4 INSTALLATION This chapter provides you with information that is intended to help you install AWS330. NOTE The individual sensors may come with their own instructions. However, refer to this manual for all installation instructions. NOTE The delivery includes accessories, such as nuts and bolts, that can be used in other installations than mast installation. Not all have to be used.
User's Guide ______________________________________________________________________ Requirements for Software Configuration Table 16 below lists the items and information that are required before configuring the AWS330 system. Table 16 Items/Information Required Prior to Configuration Pre-requisite All sites Barometric pressure measurement and QFF/QNH values in use.
Chapter 4 _______________________________________________________________ Installation Selecting Location Ambient Measurements Finding a suitable site for the weather station is important for getting representative ambient measurements. The site should represent the general area of interest. For further information, refer to the local recommendations and WMO Guide to Meteorological Instruments and Methods of Observation, WMO-No. 8. Allow sufficient clearance especially for the wind sensors.
User's Guide ______________________________________________________________________ Tilt Direction of Mast Also note the tilting direction of the mast. When installed in the northern hemisphere, the mast tilts to the west. There should be a clear area up to 9 m on the west side of the mast. The area should be free of obstacles preventing the mast from being erected and tilted. Soil Evaluation for Mast Always evaluate the soil to determine the appropriate type of the foundation required.
Chapter 4 _______________________________________________________________ Installation Site Preparation Power Supply and Communication Lines Before assembling the mast, the power supply and communication lines must be available. The primary AC power service must comply with the National Electrical Code (NEC) or equivalent specifications for grounding the primary power service entrance. The AC (mains) power must be continuous, 110–230 V/50 Hz, and without spikes and blackouts.
User's Guide ______________________________________________________________________ Equipment Grounding and Lightning Protection WARNING Consult the local electricity professionals for the local grounding requirements. The customer is responsible for supplying grounding cables, rods, clamps, power cables, long distance signal cables, and conduits for cables. With mast installations, equipment grounding and lightning protection must be done separately.
Chapter 4 _______________________________________________________________ Installation - The equipment grounding system and lightning protection grounding system should be located as far as possible from each other. The minimum recommended distance is 5 m (16 ft.). Due to this, the lightning rod grounding cable is routed down from the top of the mast via the guy wire which is isolated from the mast construction; refer to number 2 in Figure 4 below.
User's Guide ______________________________________________________________________ - The recommended grounding resistance is 10 Ω or less for both the grounding of lighting protection rod and for the equipment grounding. Soil conditions (sand, rocks, and so on) and the ground resistance measurement determine the design and construction of the grounding system. Buried ground rods and/or buried wire can be used for the ground network.
Chapter 4 _______________________________________________________________ Installation Foundation Soil and Frost Conditions When designing the foundation, the local construction companies must be consulted to find out about the soil and frost conditions in your area. When the soil is frost-susceptible, make sure that you always use proper insulation. Mast Orientation Refer to Figure 5 on page 40 for the orientation of the mast.
User's Guide ______________________________________________________________________ 0207-064 Figure 5 Mast DKP210 Orientation 40 __________________________________________________________________ M211296EN-B
Chapter 4 _______________________________________________________________ Installation Concrete Foundations DKP210 can be mounted on a new or an existing concrete block. The pole mast is fixed to the concrete block with foundation bolts. NOTE The minimum weight of the main mast block is 400 kg (882 lb.). When constructing a new concrete block, fasten the foundation bolt assembly simultaneously with the concrete pour.
User's Guide ______________________________________________________________________ Concrete block dimensions for the guy wires are presented in Figure 7 below. 0303-027 Figure 7 Concrete Block for Guy Wire (Dimensions in mm) Making New Concrete Block Make a cast mould with steel reinforcements according to the design shown in Figure 8 below. Use 12 mm deformed steel. In addition to the reinforcement, you need to add two additional horizontal bar layers.
Chapter 4 _______________________________________________________________ Installation 2. 3. 4. If necessary, place the cable duct tubes into the casting mould prior to casting. The recommended inner diameter of the duct tube is 70 mm (2.76 in.). Place the steel reinforcement into the casting mould. Screw the foundation bolts (number 1 in Figure 9 below) to the nuts (6) which are fixed to the square metal plate (3). 1012-171 Figure 9 5.
User's Guide ______________________________________________________________________ 7. 8. should be at the same height as the top of the finalized concrete block. Protect the threads of the bolts above the orientation plate, for example, by taping them. Also check the correct alignment of the foundation assembly with the orientation plate. "N" should face north and "S" should face south. For the guy wires, fix the foundation bolt (number 2 in Figure 10 on page 43) to the plate with a nut (3).
Chapter 4 _______________________________________________________________ Installation Mechanical Installation Procedure Reserve at least a full day for the mechanical installation, especially if you do not have previous experience with weather stations. CAUTION Wear a safety helmet when installing the mast. Preferably do not install the mast alone. The mechanical installation consists of the following phases: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14.
User's Guide ______________________________________________________________________ Installing Mast DKP210 DKP210 is a 10-meter tiltable mast. The mast is designed to withstand high wind conditions, up to 50 m/s of maximum wind speed, with a standard set of guy wires. The plate of the pedestal tube is made of stainless steel with a powder coating resistant to corrosion. The material of the lifting rod and mast tubes is anodized aluminum. CAUTION Do not install the mast when wind speed is over 7 m/s.
Chapter 4 _______________________________________________________________ Installation 1012-201 Figure 12 DKP210 Mast Dimensions (in mm) Tools Required for Mast Installation You need a set of Allen keys, two wrenches (17 and 30 mm), a spirit level, a compass, and a big hammer.
User's Guide ______________________________________________________________________ Mast Installation Procedure To assemble the mast, follow the work order below: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. Attach the 2-meter-high pedestal tube to the concrete foundation. Lift the first part of the mast to the upper end of the pedestal tube and assemble the hinge axle. Attach the lifting rod to the clamp preinstalled to the first part of the mast. Assemble the remaining parts of the mast.
Chapter 4 _______________________________________________________________ Installation Installing Pedestal Tube 1. 2. 3. 4. 5. Turn the pedestal tube so that the plate lug (number 5 in Figure 13 below) faces south in the northern hemisphere and north in the southern hemisphere. The plate lug is for attaching the guide for the winch wire. Place the washers and then the spring washers onto the previously installed nuts. Lift the pedestal tube through the bolts onto the washers.
User's Guide ______________________________________________________________________ Connecting First Part of Mast to Pedestal Tube To connect the first part of the mast to the pedestal tube, install the axle for the hinge. Take the axle (number 3 in Figure 14 below) from the plastic bag labeled "Hinge Set". 1. 2. 3. Thread the Allen bolt (4) with the washers to one end of the axle. Lift the first part of the mast (1) end on the hinge and install the axle.
Chapter 4 _______________________________________________________________ Installation Connecting Lifting Rod to Mast The delivery contains the lifting rod that is used, with the winch, to erect and tilt the upper parts of the mast. The clamps are preinstalled at the factory to the pedestal tube and to the first part of the mast. The clamp on the lifting rod has hooks and taps to ease the installation. The stainless steel bolts are included in the "Lifting Rod Assembly Set".
User's Guide ______________________________________________________________________ Assembling Remaining Parts of Mast The remaining parts of the mast have an O-ring (number 1 in Figure 16 below) installed on the mast part. Just slide the parts of the mast together to connect them. You need to rotate either of the parts to align the groove (2) on the upper part and the ridge (3) inside the lower part.
Chapter 4 _______________________________________________________________ Installation Connecting Guy Wires to Mast 1. Install the clamps (numbers 1 in Figure 17 below) with the washers and Allen bolts (4, 5) around the narrowing of the mast (2), 1 m from the top. Aim the clamps assembly so that the snap hook (7) of detachable guy wire 1 (6) points upward when the mast is tilted. Tighten the Allen bolts. 2. 3.
User's Guide ______________________________________________________________________ Installing Lightning Rod To install the lightning rod, proceed as follows: 1. 2. 3. NOTE Slide the lightning rod (number 1 in Figure 18 on page 55) to the holes in the lightning rod holders (2) and attach the rod to the holders using the fastening plates (6).
Chapter 4 _______________________________________________________________ Installation 1012-177 Figure 18 Lightning Rod Installation The following numbers refer to Figure 18 above: 1 2 3 4 5 6 7 8 9 NOTE = = = = = = = = = Lightning rod Lightning rod holder, 2 pcs Mounting clamp, 4 pcs Allen bolt M6x40 DIN912 A4, 7 pcs; use Allen key 5 mm Spring washer B6 DIN127 A4, 7 pcs Fastening plate Grounding cable Isolated guy wire 3 Cable tie At this point, it is highly advisable to erect the mast to ensure th
User's Guide ______________________________________________________________________ Erecting Mast DKP210 Before erecting the mast, check that all the parts are firmly attached. Check that the top fastener is secure on the upper end of the mast. Installing and Using Winch It is recommended that you use the easy-to-install winch for erecting the mast. After use, the winch should be removed and stored to a dry place. 1. Attach the handle (number 2 in Figure 19 below) to the winch.
Chapter 4 _______________________________________________________________ Installation 2. Install the winch toward the pedestal tube so that the tap (number 3 in Figure 20 below) on the tube goes to the hole (2) on the winch. Make sure that the plastic cover on the winch faces up. 1101-029 Figure 20 3. 4. Winch Installation Wrap the clamps (1) around the tube to the clamp assemblies (4) and attach them. Finally, secure the clamps with the provided pin clips as shown in Figure 21 below.
User's Guide ______________________________________________________________________ 5. 6. 7. 8. Attach the cable bearer to the plate lug (number 5 in Figure 13 on page 49) of the pedestal plate. Make sure that the free wire end points toward the end of the lifting rod (see correct positioning of the cable bearer in Figure 22 below). Clip the hook of the guy wire to the plate lug of the lifting rod. Take a good grasp on the handle and turn it clockwise to tighten the wire and lift the mast slightly.
Chapter 4 _______________________________________________________________ Installation Securing Hinge After erecting the mast, secure the hinge with the provided accessories as illustrated in Figure 23 below. Refer also to Figure 14 on page 50. NOTE Always assemble the washers (number 3 in Figure 23 below) under the spring washers (2) to prevent the paint from being damaged.
User's Guide ______________________________________________________________________ Connecting Guy Wires to Concrete Blocks 1. 2. 3. 4. NOTE For the guy wires 2 and 3, connect the U-bolt (number 4 in Figure 24 on page 61) to the eye nut (5) installed on the concrete block. Slide the strap (3) onto the U-bolt and thread the nuts. For the guy wire 1, connect the U-bolt to the eye nut with an additional bow shackle to enable easy releasing of the wire.
Chapter 4 _______________________________________________________________ Installation 1012-207 Figure 24 Connecting Guy Wires to Concrete Blocks The following numbers refer to Figure 24 above: 1 2 3 4 5 6 7 8 9 = = = = = = = = = Guy wire Wire clip Strap U-bolt Eye nut Additional bow shackle Nut M6 DIN934; use wrench 10 mm Nut M12 DIN934; use wrench 19 mm Wedge VAISALA _______________________________________________________________________ 61
User's Guide ______________________________________________________________________ Installing Ultrasonic Wind Sensor WMT703 Ultrasonic Wind Sensor WMT703 measures wind speed and direction. WMT703 is installed on top of the mast with the FIX70 mounting kit. The sensor is shipped in a custom cardboard container with plastic transportation dampers. When unpacking WMT703, remove only the damper that protects the sensor body. Do not remove the damper that protects the array.
Chapter 4 _______________________________________________________________ Installation CAUTION When handling WMT703, do not rotate, pull, strike, bend, scrape, or touch the transducers with sharp objects. Any impact on the wind sensor array damages the device. 1005-004 Figure 26 WMT703 Sensor Handling WARNING A lightning rod must be installed above the wind sensor; see section Equipment Grounding and Lightning Protection on page 36.
User's Guide ______________________________________________________________________ Mounting WMT703 To mount WMT703 on the mast, proceed as follows: 1. 2. 3. 4. CAUTION Attach the mast adapters (numbers 2, 4, and 5 in Figure 27 on page 65, both sides) to the FIX70 mounting kit (1). Install the FIX70 mounting kit to the mast (11) with the U-bolts (7). Do not tighten the U-bolts (7, 8, 9) too much at this stage because you still need to rotate the bracket to align WMT703 (6) after the installation.
Chapter 4 _______________________________________________________________ Installation 1012-216 Figure 27 Installing Ultrasonic Wind Sensor WMT703 The following numbers refer to Figure 27 above: 1 2 3 4 5 6 7 8 9 10 11 = = = = = = = = = = = FIX70 mounting kit Mast adapter for FIX70 mounting kit Screw M6x16 DIN912 A4, 4 pcs; Allen key 5 mm Nut M6 DIN934 A4, 4 pcs; use wrench 10 mm Spring washer B6 DIN127 A4, 9 pcs Ultrasonic Wind Sensor WMT703 U-bolt Spring washer B8 DIN127 A4, 4 pcs Nut M8 DIN934 A4,
User's Guide ______________________________________________________________________ 1004-084 Figure 28 Tightening Connector The following number refers to Figure 28 above: 1 = Tighten the connector by rotating the ribbed part of the connector by hand. Do not use tools. NOTE Verify that the connector is properly tightened to avoid water leakage and damage to the sensor. If water leaks into the connector, the warranty for WMT703 is voided.
Chapter 4 _______________________________________________________________ Installation WARNING Using a long cable between different units (sensors, transmitters, power supplies, and displays) can cause a lethal surge voltage if a lightning strike occurs in the vicinity. Always apply proper grounding procedures and follow the requirements of the local Electrical Code. Aligning Ultrasonic Wind Sensor WMT703 WMT703 is permanently marked with the letter N and a north arrow.
User's Guide ______________________________________________________________________ 1001-018 Figure 30 Incorrectly Aligned WMT703 and Resulting Offset Error N = Correct direction for true north a = Wind direction offset error caused by the misalignment of WMT703 68 __________________________________________________________________ M211296EN-B
Chapter 4 _______________________________________________________________ Installation Installation Tips for Aligning Wind Sensors If you have successfully installed Mast DKP210 so that it tilts exactly toward west (in the northern hemisphere), you can align the wind sensor correctly using a regular spirit level. 1. Tilt the mast (number 1 in Figure 31 below) and set it resting on the tilting support (2).
User's Guide ______________________________________________________________________ Installing Mechanical Wind Sensor Set WA15 Mechanical Wind Sensor Set WA15 consists of a Vaisala Anemometer WAA151, a Vaisala Wind Vane WAV151, a cross arm WAC151, a junction box, and cabling. Install WA15 as follows: 1. 2. 3. WARNING Attach the cross arm to the top of a pole mast with the mounting clamp. Check that vane end of the cross arm is pointing north as shown in Figure 31 on page 69.
Chapter 4 _______________________________________________________________ Installation 1012-180 Figure 32 Mechanical Wind Sensor Set WA15 Installation The following numbers refer to Figure 32 above: 1 2 3 4 5 = = = = = Anemometer WAA151 Wind Vane WAV151 Cross arm WAC151 Washer anti-loss A6.4 PE LD, 6 pcs Screw M6x16 DIN7992 A4, 6 pcs; use Allen key 4 mm (preinstalled) 6 = Washer A6.
User's Guide ______________________________________________________________________ Installing GSM/GPRS Antenna To install the GSM/GPRS modem, you need to mount the antenna to the mast and insert the SIM card into the modem (see section Preparing GSM/GPRS Modem on page 94). The GSM/GPRS antenna is an omnidirectional antenna. The antenna provides high gain, enabling better signal at installation sites where long distances to the base station or the terrain cause uncertain connections.
Chapter 4 _______________________________________________________________ Installation Installing Solar Panel SOLAR33 Solar Panel SOLAR33 is a custom-designed module incorporating highpower efficiency and quality. The 33 W panel contains 36 polycrystalline silicon cells. The SOLAR33 modules are lightweight and have high power and a robust construction. The cells are protected from dirt, moisture and mechanical impact using a tempered, low-iron glass front.
User's Guide ______________________________________________________________________ Install the solar panel as follows: 1. 2. Mount the panel to the mast using the provided brackets. Face the panel south (true south, not magnetic) on the northern hemisphere and north on the southern hemisphere. The recommended installation height is roughly 4 m from the ground level. Secure the bolts firmly. Adjust the tilting of the solar panel by loosening the adjusting screws.
Chapter 4 _______________________________________________________________ Installation 1101-011 Figure 34 Installing Solar Panel SOLAR33 The following numbers refer to Figure 34 above: 1 2 3 4 5 6 7 8 = = = = = = = = Solar panel Frame for solar panel Bracket APPK-SET75 Pole mast Screw M6x20 DIN912 A4, 4 pcs; use Allen key 5 mm Spring washer B6 DIN127 A4, 8 pcs Washer A6 DIN 125 A4, 4 pcs Screw M6x25 DIN912 A4, 4 pcs; use Allen key 5 mm VAISALA _________________________________________________________
User's Guide ______________________________________________________________________ 1101-012 Figure 35 Adjusting Solar Panel SOLAR33 Tilting Angle The following letter and number refer to Figure 35 above: α = Tilting angle 9 = Adjusting screws; use Allen key 5 mm and wrench 10 mm Table 18 Recommended Tilt Angle for Solar Panel Latitude of Site 0 ...10° 10 ...
Chapter 4 _______________________________________________________________ Installation Installing Sensor Support Sensor support is mounted on the mast and serves for mounting several sensors. In AWS330, a suitable installation height to the mast is 1.8 meters. Install the sensor support as follows: 1. Mount the sensor support to the mast using a U-bolt (number 2 in Figure 37 below) and the mounting plate (6). Use a spirit level to verify that the arm is level. 2.
User's Guide ______________________________________________________________________ NOTE The sensor support package includes a bag of tools, screws, and other useful equipment that you can use for mounting the sensors onto the sensor support. Keep the bag for later use.
Chapter 4 _______________________________________________________________ Installation When mounting only half the sensor support: 1. Mount the sensor support to the mast using a U-bolt (number 2 in Figure 39 below) and the mounting plate (6). Use a spirit level to verify that the arm is level. 2. 1012-182 Figure 39 Mounting Half Sensor Support The following numbers refer to Figure 39 above: 1 2 3 4 5 6 7 = = = = = = = Sensor support U-bolt Nut M8 DIN934 A4, 4 pcs Washer A6.
User's Guide ______________________________________________________________________ Installing Air Temperature and Relative Humidity Probe HMP155 It is recommended that you install the HMP155 probe and Radiation Shield DTR503A onto a sensor support for WMO-compliant measurement results. NOTE The radiation shield is important in protecting the sensor from direct sunlight, and must always be used. 1. 2. 3. 4.
Chapter 4 _______________________________________________________________ Installation 1012-183 Figure 40 Installing HMP155 into Radiation Shield The following numbers refer to Figure 40 above: 1 2 3 4 5 6 = = = = = = HMP155 probe Radiation shield DTR503A Sensor support Washer A6.
User's Guide ______________________________________________________________________ Installing Pyranometer CMP6 Pyranometer CMP6 is installed on a mounting plate for thermal isolation. 1. 2. Install the mounting plate (number 2 in Figure 41 on page 83) onto the sensor support (1). Prepare the sensor (3): a. Carefully remove the plastic cover of the sensor by pressing the clips on the cover. b. NOTE Be careful not to drop the sensor when you remove the cover. The cover is attached tightly. 3. 4.
Chapter 4 _______________________________________________________________ Installation NOTE Keep the original solar radiation sensor packaging for later shipments. Although all sensors are weatherproof and suitable for harsh ambient conditions, they do partially consist of delicate mechanical parts. It is recommended that you use the original shipment packaging in order to safely transport the equipment to the measurement site.
User's Guide ______________________________________________________________________ 1012-187 Figure 42 Pyranometer CMP6 Dimensions, Pyranometer CMP6 Installed 84 __________________________________________________________________ M211296EN-B
Chapter 4 _______________________________________________________________ Installation Installing Snow Depth Sensor IRU-9429 Snow Depth Sensor IRU-9429 is installed on the sensor support. 1. Attach the installation plate (number 5 in Figure 43 below) to the sensor support. Place the sensor (4) through the installation plate and fasten with the hose clamp (6). Use the screw that comes with the clamp and tighten with wrench 10 mm. Attach the sensor cover (4) to its place using the screws (7).
User's Guide ______________________________________________________________________ Installing Soil Temperature Sensor QMT110 Vaisala Soil Temperature Probe QMT110 is used for precision measurement of ground and soil temperatures. In AWS330, you can have up to two QMT110 sensors. Positioning of the sensor and insulation of the sensor cable are essential for the measurements; see steps 3 and 4. 1. 2. 3. 4. 5. Choose a location.
Chapter 4 _______________________________________________________________ Installation Installing Rain Gauge RG13(H) Vaisala Rain Gauge RG13(H) features a tipping-bucket mechanism that produces a contact closure every time the gauge receives a predetermined small quantity of rainfall (for example, 0.2 mm, depending on the model). The body and the funnel of the gauge are aluminum alloy.
User's Guide ______________________________________________________________________ 3. NOTE Use the spirit level on the RG13(H) for the leveling (number 3 in Figure 46 on page 89). 4. 5. NOTE Place the base of the rain gauge (9) onto the stand and level it with the three leveling screws (2). Use the spirit level (13) on the rain gauge for the leveling. Finally, secure the locknuts (12). Secure the base through the two holding lugs (14) with the provided Allen bolts, washers, and nuts (7, 8, and 10).
Chapter 4 _______________________________________________________________ Installation 1012-189 Figure 46 Installing Rain Gauge RG13(H) VAISALA _______________________________________________________________________ 89
User's Guide ______________________________________________________________________ Installing Enclosure The stainless steel electronics enclosure houses the QML logger, communication modems, other system electronics and the backup batteries. All external devices are connected to the bottom flange of the enclosure. The wiring inside the enclosure is done at Vaisala. At the site, the customer needs to do the following mechanical installations: - Mount the enclosure to a mast or on a wall.
Chapter 4 _______________________________________________________________ Installation Installing Enclosure to Mast In a mast installation, the enclosure is mounted below the sensor support. The bottom of the enclosure comes roughly 1 m from the ground. Mast mounting sets (number 7 in Figure 48 on page 92) are used for the installation, and the enclosure door should face north (in the northern hemisphere) to avoid solar radiation heating the enclosure. 1. 2. 3. 4. 5. 6. Install the mast mounting sets.
User's Guide ______________________________________________________________________ 1012-191 Figure 48 Installing Enclosure to Mast The following numbers refer to Figure 48 above: 1 2 3 4 5 6 7 8 = = = = = = = = Support plate, APPK-SET100 Clamp plate, APPK-SET100 Spring washer B6 DIN127 A4, 8 pcs Screw M6x25 DIN912 A4, 8 pcs; use Allen key 5 mm Screw M6x16 DIN912 A4, 8 pcs; use Allen key 5 mm Washer A6 DIN125 A4, 8 pcs Mast mounting set, APPK-SET100 Enclosure 92 ______________________________________
Chapter 4 _______________________________________________________________ Installation Installing Enclosure to Wall The correct installation height for the enclosure is approximately 1.5 to 1.7 m (eye height for best working access). Insert the four installation screws through the mounting holes of the wall mounting plate attached to the back of the enclosure; see Figure 49 below.
User's Guide ______________________________________________________________________ Grounding Enclosure Equipment grounding and lightning protection grounding must be done separately. For lightning protection grounding, see that the lightning rod has been grounded properly, as instructed in section Equipment Grounding and Lightning Protection on page 36. Connect the end of the lightning rod grounding cable to the grounding rod close to the guy wire foundation (number 1 in Figure 4 on page 37).
Chapter 4 _______________________________________________________________ Installation Connecting Sensor Cables Connect the sensor cables to the enclosure after mechanically installing the sensors. All sensors, power supplies, and communication devices are connected to the system using environmentally-sealed connectors. All the connectors are labeled and located on the bottom flange of the electronic enclosure. See also Appendix A, Wiring Diagrams, on page 263 for an overview of AWS330 wiring.
User's Guide ______________________________________________________________________ Transient Protection Devices Each sensor input in the QML logger has varistor (VDR) protection against induced transients. The local data and Ethernet ports have Transzorb diodes in their inputs. For maintenance information, see section Replacing Components on page 195. Battery Regulator Battery Regulator QBR101C maintains charging of the integral 12 V battery.
Chapter 4 _______________________________________________________________ Installation Powering Up System WARNING Electrical installations must be carried out by licensed experts as governed by local and state authorities, legislation, and regulations. WARNING Always consult local authorities on decisions that relate to aviation safety, grounding, lightning protection, safe installation, and power supply.
User's Guide ______________________________________________________________________ Connecting Batteries WARNING Do not connect the batteries until AWS330 is ready for powering. The work order for connecting the AWS330 backup batteries: 1. 2. 3. Insert the flat connectors to battery terminals. Mount the batteries and hook the straps. When ready for powering, connect the battery cables to the flat connectors.
Chapter 4 _______________________________________________________________ Installation Mounting Backup Batteries Two backup batteries, each with 26 Ah capacity, provide backup power for the system. The batteries are charged through the battery regulator by the solar panel or the AC power supply. The batteries are sealed and maintenance-free. The batteries are mounted inside the enclosure as shown in Figure 54 below.
User's Guide ______________________________________________________________________ 1012-198 Figure 55 Attaching Strips over Battery The following numbers refer to Figure 55 above: 1 2 3 4 5 = = = = = Spring washer B6 DIN127 A4, 2 pcs Screw M6x25 ISO7380 A4, 2 pcs; use Allen key 4 mm Battery strap, 2 pcs Battery 26 Ah, 2 pcs Subframe 100 _________________________________________________________________ M211296EN-B
Chapter 4 _______________________________________________________________ Installation Connecting Battery Cables To connect the battery cables, proceed as follows: 1. 2. 3. Connect the red wires to the + poles. (Battery fuse 6.3 A is within the battery switch assembly.) Connect the black wires to the - poles. If solar panel is used, connect the solar panel cable to the Solar Panel connector on the bottom of the enclosure; see Figure 51 on page 95.
User's Guide ______________________________________________________________________ AC (Mains) Powering For AC (mains) powering, make sure the site has been prepared according to the instructions in section Site Preparation on page 35. Before connecting the AC (mains) power cable, ensure there is no power connected to the cable (by turning down the fuse or turning off the power). Connect the AC (mains) power cable to the Mains Input connector on bottom of the enclosure; see Figure 51 on page 95.
Chapter 5 __________________________________________ Software Configuration and Operation CHAPTER 5 SOFTWARE CONFIGURATION AND OPERATION This chapter contains information on operating AWS Client software and introduces optional Local Display QMD202. AWS Client is used for working with the QML logger, for example, for setting station-specific parameters to the setup file and for downloading the log files. Software Installation To operate AWS Client software, you need a PC with Windows® operating system.
User's Guide ______________________________________________________________________ Connecting AWS Client to AWS330 Installing USB Driver If you are using a computer that does not have a RS232 serial port, such as most laptops, a USB to RS232 converter cable is provided for using a local connection to the AWS330 system. Install the driver for the cable as follows: 1. 2. 3. 4. 5. Insert Vaisala USB Instrument Driver CD to CD/DVD drive of your PC.
Chapter 5 __________________________________________ Software Configuration and Operation Connecting to AWS330 To connect your computer to the QML logger serial port, proceed as follows: 1. Connect the provided maintenance cable to the COM0 connector on the bottom flange of the enclosure and to an available COM port on your PC; see Figure 58 below. 1012-210 Figure 58 2. 3.
User's Guide ______________________________________________________________________ General Instructions on Using AWS Client Starting and Exiting AWS Client You can start AWS Client in Windows by clicking the Start button and then selecting Programs - Vaisala - AWS Client. AWS Client is opened with the terminal main window shown in Figure 59 below.
Chapter 5 __________________________________________ Software Configuration and Operation Establishing Connection You can establish a connection with the QML logger by clicking the Open connection button or from the menu File - Connect. This will open a new window shown in Figure 60 below. 1101-015 Figure 60 Establishing Connection This window displays the connection parameters for the default connection. (You can add more connections. See section Using Address Book on page 140.
User's Guide ______________________________________________________________________ 1101-016 Select Default from the white column on the left and click Edit. 1101-017 Now you are able to edit the connection parameters. You should leave all other parameters except COM port unchanged. Choose the correct assigned COM port from the drop-down menu and click Save.
Chapter 5 __________________________________________ Software Configuration and Operation 1101-018 You have now changed the COM port for the default connection. To return to the main menu and to connect to the station, click Close Ok. When you are connected to the station but the service command mode is closed, the messages and reports appear on the main window as shown in Figure 61 on page 110.
User's Guide ______________________________________________________________________ 1101-019 Figure 61 NOTE Terminal Showing Report The report type and appearance shown in Figure 61 above depends on your setup.
Chapter 5 __________________________________________ Software Configuration and Operation Configurations with AWS Client AWS330 is pre-configured during manufacturing according to the ordered features. However, you must configure certain parameters, such as site information and telemetry settings. It is also possible to add features later by attaching additional standard AWS330 sensors and changing the appropriate configuration parameter(s).
User's Guide ______________________________________________________________________ CAUTION Do not change values that are not instructed to be changed in this manual or by Vaisala personnel. Special care should be taken when updating parameters remotely, for example, over an IP connection. Incorrect settings can leave the AWS330 system inaccessible for further remote configuration and maintenance.
Chapter 5 __________________________________________ Software Configuration and Operation Software Configuration Procedure CAUTION Configure AWS330 by following this procedure step by step. NOTE Navigating in the screens is explained in section General Instructions on Using AWS Client on page 106. Read it carefully. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. Set Common Parameters as described on page 114. Set Location Parameters as described on page 115 (optional).
User's Guide ______________________________________________________________________ Common Parameters The dialog presented in Figure 63 below contains the essential parameters for an operational station. 1011-014 Figure 63 Common Parameters Dialog To set the common parameters: 1. 2. 3. 4. 5. 6. Open menu Settings - Parameters - Common. Enter Name for the station. Do not use spaces or special characters in the station name. Enter station Altitude in meters from mean sea level.
Chapter 5 __________________________________________ Software Configuration and Operation Location Parameters Geographical location of the observation site is needed if sunshine duration calculation is used. 1011-015 Figure 64 Setting Location Parameters Table 21 Location Parameters Set Name Parameter General Settings General Settings Latitude Longitude Parameter Name Latitude Longitude Use Site latitude. -90…90 [deg] Site longitude.
User's Guide ______________________________________________________________________ Time and Time Zone With AWS Client, you can either set the clock and time zone of the QML logger manually, or you can synchronize the logger clock with the clock on your PC. To set the QML logger clock, proceed as follows: 1. On the Maintenance menu, select Synchronize Clock. The Set Logger Time window, shown in Figure 65 below, is displayed. 0802-143 Figure 65 2. 3. 4.
Chapter 5 __________________________________________ Software Configuration and Operation If AWS330 is connected to the Internet or other network where NTP service is available, further timekeeping can be automated by configuring the NTP client into use. 1011-016 Figure 66 Setting NTP Client Parameters Table 22 NTP Parameters Set Name NTP Parameter Name interval NTP server1 NTP timetol Use Interval [s] to check and adjust time. Once per hour (3600) is the recommended shortest period.
User's Guide ______________________________________________________________________ Sensor Parameters The following sensor requires installation-specific parameters: 1011-017 Figure 67 Adjusting Sensor Parameters Table 23 Sensor Parameters Sensor IRU 9429 Set Name General Settings Parameter Name Use SHSensorHeight Snow height sensor installation height (cm) 118 _________________________________________________________________ M211296EN-B
Chapter 5 __________________________________________ Software Configuration and Operation Calculation Parameters The following calculation requires site/installation-specific parameters: 1011-018 Figure 68 Adjusting Calculation Parameters Table 24 Calculation Parameters Calculation Set Name Evapotranspiration General Settings Parameter Name evap_albedo Use Soil albedo 0 ...1.0. Default is 0.25 (green grass).
User's Guide ______________________________________________________________________ Messaging Parameters The following sections describe parameters used to control messaging through telemetry and local communication devices. NOTE Even if all listed parameters are present in AWS330 system, only those settings that have suitable hardware available are usable with that particular system.
Chapter 5 __________________________________________ Software Configuration and Operation Messaging Protocols Protocols used to transmit observation messages through telemetry and local serial links are selected as follows: 1011-020 Figure 70 Selecting Messaging Protocol Table 26 Message Protocol Parameters Message Set Name CSV / OC CSV / OC CSV / OC CSV / OC CSV / OC SMS SMS SMS SMS SMS SMS Table Table Table Table Table (1 MessageDispatcher MessageDispatcher MessageDispatcher MessageDispatcher Mess
User's Guide ______________________________________________________________________ NOTE Socket, FTP, and eMail transmission require an IP-capable media, that is, Ethernet or GPRS. NOTE All messages are not suitable for all protocols. CSV and Table messages cannot be transmitted using SMS due to the limited size of the SMS message (160 characters).
Chapter 5 __________________________________________ Software Configuration and Operation Alarming Protocols Protocols used to transmit alarm messages through telemetry and local serial links are selected as follows: 1011-021 Figure 71 Selecting Alarming Protocol Alarm messages are divided into two types: meteorological and technical. Meteorological alarms are based on observed values, for example, air temperature.
User's Guide ______________________________________________________________________ Protocol Parameters Parameters required to configure different application-level protocols used for messaging are described in the following sections. Parameters for unused protocols must be left unchanged. TCP-Socket (Virtual Com Port) TCP-socket connection allows messages to be sent to data acquisition server hosting one or multiple TCP- server sockets, where QML loggers can connect to as TCP-client.
Chapter 5 __________________________________________ Software Configuration and Operation Table 28 TCP-Socket Connection Parameters Set Name VCOM0 Parameter Name host1 VCOM0 VCOM0 VCOM0 port1 retry1 netif1 (1 Use Name or IP address of the Data Acquisition Server TCP port in Data Acquisition Sever Number of retries for connecting Network interface to use (1 Preset at factory. Do not modify.
User's Guide ______________________________________________________________________ File Transfer Protocol (FTP) FTP enables QML logger to send messages as files to FTP server. ADSL switch Ethernet ISP (DSLAM) PSTN LAN Internet Firewall FTP Server 1101-021 Figure 74 Example FTP Transmission Messages appear in FTP server as single file per message, in the following directory structure, and named as: Obs_FTP.
Chapter 5 __________________________________________ Software Configuration and Operation FTP uses the following station parameters: 1011-023 Figure 75 Setting FTP Parameters Table 29 FTP Transmission Parameters Set Name FTP FTP FTP NOTE Parameter Name server user pass Use Name or IP address for the FTP server Username to login to the FTP server Password to login to the FTP server QML logger uses passive mode FTP, which is less prone to be blocked by a firewall.
User's Guide ______________________________________________________________________ Set the interval of the selected observation message type by (see Table 25 on page 120): - csv_interval - sms_interval - table_interval eMail (SMTP) QML logger can be configured to send messages as eMail. 1101-022 Figure 76 Example eMail Transmission Messages appear in the recipient's eMail inbox as: Sender: As set to station parameter sender; see Table 30 on page 129.
Chapter 5 __________________________________________ Software Configuration and Operation 1012-163 Figure 77 Setting EMAIL Parameters Table 30 eMail Transmission Parameters Set Name Parameter Name EMAIL server EMAIL EMAIL EMAIL recipient sender auth Use Name or IP address for the operator SMTP server Recipient eMail address Sender eMail address (1 Authentication type to use (2 none = No authentication plain = Authentication mode 'plain' login = Authentication mode 'login' 1) eMail servers usually
User's Guide ______________________________________________________________________ 3. Enter the following commands: /> paramset hosts::smtp username /> paramset hosts::smtp password where = Name of the operator SMTP server = Username to use for login = Password to use for login For example: /> paramset hosts:mail.inet.fi:smtp username me /> paramset hosts:mail.inet.fi:smtp password mysecret 4.
Chapter 5 __________________________________________ Software Configuration and Operation GSM SMS AWS330 can send basic meteorological parameters and alarms using SMS. Message contents are limited in size to fit into a single SMS: 160 characters. NOTE Due to size limitation, it is not possible to send CSV or Table messages using SMS.
User's Guide ______________________________________________________________________ Local Serial Line Observation and alarm messages can be sent over local RS232 and RS485 lines.
Chapter 5 __________________________________________ Software Configuration and Operation Telemetry Parameters Settings in the following sections are used to set telemetry parameters depending on the type of telemetry device used (GSM, Ethernet) and the selected protocol. Connection Parameters GSM Modem Before starting to set up the GSM modem, you need to obtain a SIM card. NOTE Even if using a PIN code is optional, it is recommended that you use it to protect the SIM from unauthorized use.
User's Guide ______________________________________________________________________ GPRS To access IP services using GPRS, the following information is required: - Operator-specific access point setting (APN) - Operator-specific username and password. Only if APN requires user credentials - IP settings for the operator's network (optional). Usually, this information is provided automatically by the network NOTE Typically, only APN and optionally user credentials need to be changed.
Chapter 5 __________________________________________ Software Configuration and Operation Table 34 GPRS Connection Parameters Set Name netif0 netif0 Parameter Name apn auth netif0 netif0 netif0 username password isp netif0 netif0 netif0 netif0 netif0 netif0 netif0 netif0 staticip address subnetmask gateway dns1 dns2 vjcompress autoinit (1 (2 Use Operator-specific access point name Authentication type none = No authentication any = PAP or CHAP pap = PAP chap = CHAP Username for authentication Passw
User's Guide ______________________________________________________________________ CSD Dial-In (Data Call) Using AWS in dial-in mode does not require additional parameter settings. NOTE CSD dial-in is enabled with GPRS for service purposes, but it should be noted that AWS cannot answer incoming calls while GPRS connection is active.
Chapter 5 __________________________________________ Software Configuration and Operation Ethernet AWS Ethernet board does not require any configuration. IP connection established over it uses the following parameters: NOTE By default, Ethernet is brought up when AWS starts, and it uses a dynamic IP address obtained from the DHCP server. The dynamic address can be checked using RS232 service connection to COM0 and issuing command ipconfig.
User's Guide ______________________________________________________________________ Alarms The following parameters provide limits for preconfigured alarms: 1012-168 Figure 82 Setting Alarm Limits Table 37 Alarm Limit Parameters Monitored Value Air temperature instant Air temperature instant Wind speed max 10 min Precipitation sum 1 hour Datalogger temperature Datalogger temperature Datalogger supply voltage Unit °C °C m/s mm °C °C VDC Alarm High limit Low limit High limit High limit High limit Low
Chapter 5 __________________________________________ Software Configuration and Operation AWS Client Main Window On top of the main window, you find the AWS Client toolbar. All commands are accessible using the AWS Client menu, but you can also use the toolbar as a quick way to select functions. Table 38 Icon Toolbar Icons and Functions Function Description Open connection Opens the address book for selecting the weather station to connect to.
User's Guide ______________________________________________________________________ Defining AWS Client Settings When you start the software for the first time, you need to define the settings to be used during download. Use the Settings menu options for this purpose. Read Only Mode Multiple instances of AWS Client can be open simultaneously.
Chapter 5 __________________________________________ Software Configuration and Operation Serial Line Connections To add an Address Book entry for a serial line connection, proceed as follows: 1. 2. 3. On the Settings menu, select Address Book. Select New. The fields for selecting new connection parameters are displayed. From the Type list, select the type of the connection; that is, select Serial Port. The fields for selecting a serial port connection, shown Figure 84 below, are displayed.
User's Guide ______________________________________________________________________ 6. 7. 8. 9. In the Command wait timeout (ms) field, enter a value in milliseconds that specifies for how long AWS Client will wait for the logger to respond when AWS Client sends a requests over the serial line connection. If the request, for instance, a log file download, succeeds within the timeout, a success message is displayed.
Chapter 5 __________________________________________ Software Configuration and Operation 1101-023 Figure 85 4. 5. 6. Creating TCP/IP Socket Connection Address Book Entry In the Name field, enter an alphanumeric string that uniquely identifies the connection you are creating in the Address Book. If you have multiple QML loggers on the same network and you are going to access them over the same TCP/IP connection, you will need a unique identifier for each logger.
User's Guide ______________________________________________________________________ 7. In the IP addr./DNS name field, enter the destination IP address or DNS name. NOTE In order to use the DNS name, you must have access to a DNS server to be able to resolve the DNS name to the IP address of the destination host. NOTE For Server socket, the target IP addr./DNS name is not available in the user interface. 8. 9. 10. Enter the port to be used in the Port field.
Chapter 5 __________________________________________ Software Configuration and Operation 1204-079 Figure 86 4. 5. 6. Creating Dial-Up Connection Address Book Entry In the Name field, enter an alphanumeric string that uniquely identifies the connection you are creating in the Address Book. If you have multiple QML loggers on the same network and you are going to access them over the same dial-up connection, you need a unique identifier for each logger.
User's Guide ______________________________________________________________________ 7. 8. the set static parameters command can require a long command wait timeout. From the Dial-up modem entry pull-down menu, select an ISP Name, that is, the Windows Dial-up Networking entry that you created as a prerequisite for this address book entry. Save your settings and return to the Address Book window by selecting Save. Options Window The Options window contains general settings for AWS Client.
Chapter 5 __________________________________________ Software Configuration and Operation Table 39 Settings in AWS Client Options Window Setting Locale Setup file download directory Setup file upload directory PDF reader path Trace log directory Trace log on Sleep commands enabled Send close before open Secure setup upload Terminal line wrap Command line length Description User interface language used in AWS Client.
User's Guide ______________________________________________________________________ Setting Reset timeout (seconds) GSM Modem PIN Function Key Mappings 1) Description enough, and the value has to be set higher. Maximum time to wait for the logger to execute reset. The PIN code for the GSM modem SIM card. The function key mappings can be used for mapping frequently used QML logger shell commands to the function keys on your keyboard.
Chapter 5 __________________________________________ Software Configuration and Operation Changing Sensor Configuration If standard AWS330 sensors are added to or existing sensors are removed from the configuration, sensor management parameters should be changed accordingly.
User's Guide ______________________________________________________________________ In addition to sensor selection, certain calculations depending on multiple sensors need to be enabled and disabled separately. NOTE If a sensor is removed from the AWS330 configuration according to table Sensor Selection Parameters on page 149, any depending calculations must be also removed by changing the corresponding selection parameter, as described in Table 41 below.
Chapter 5 __________________________________________ Software Configuration and Operation 0802-141 Figure 89 Address Book Window In the Address Book window, select the address book entry for the QML logger and click OK. To open the service connection, select Terminal Connect on the Maintenance menu or click the Open command mode button on the toolbar. You can also type the open command with your keyboard and press enter. Note that the typed characters are not echoed on the screen.
User's Guide ______________________________________________________________________ Giving Commands When you have established the connection to the QML logger, you can use the commands described in Table 42 below to communicate with the QML logger. Commands are text strings sent from the PC or terminal to the logger. To open the connection, select Terminal Connect on the Maintenance menu or click the Open command mode button on the toolbar.
Chapter 5 __________________________________________ Software Configuration and Operation NOTE Commands have to be typed in the same case as indicated in the help texts, usually in lower case. The command name and the following parameters are always separated by a space. Pressing ENTER (return) will execute the command so that the QML logger reads the typed command. You can use BACKSPACE to delete the last typed character.
User's Guide ______________________________________________________________________ 3. In the file dialog, select the destination file where the parameters are to be stored to. The file has XML format, so using extension .xml is preferred. 0906-065 Figure 90 4. 5. Selecting File for Station Settings Backup Click Select File to start the backup.
Chapter 5 __________________________________________ Software Configuration and Operation 3. In the file dialog, select the file containing the backup. 0906-067 Figure 92 4. 5. Selecting File for Station Settings Restore Click Select File to start the restoring.
User's Guide ______________________________________________________________________ Downloading Log Files To download log files from the QML logger, proceed as follows: 1. In the Maintenance menu, select Log File and then Download from Logger. The list of log files available for downloading in the QML logger is displayed (see Figure 94 below). The files are arranged by log group. Each log group includes specific parameters as defined in the setup file.
Chapter 5 __________________________________________ Software Configuration and Operation 4. To set your download options, select Settings. The Log File Download Settings window shown in Figure 95 below is displayed. 0802-156 Figure 95 NOTE Log File Download Settings Window The date and time formats in the converted log files depend on the date and time formats specified in the AWS Client language options. 5. The options available in the window and their uses are described in Table 43 below.
User's Guide ______________________________________________________________________ NOTE Download settings are stored on your PC, so any future downloads will automatically use the same settings. 6. 7. Save your download options and return to the log file selection window by selecting Save. Start downloading the log files by selecting Download. A download progress dialog is displayed (see Figure 96 below). If you want to cancel the download, select Cancel.
Chapter 5 __________________________________________ Software Configuration and Operation To convert downloaded log files, proceed as follows: 1. In the Maintenance menu, select Log File and then Convert. The list of log files downloaded to AWS Client is displayed as shown in Figure 97 below. 0802-157 Figure 97 2. 3. 4.
User's Guide ______________________________________________________________________ 5. To set your conversion options, select Settings. The Log File Conversion Settings window shown in Figure 98 below is displayed. 0802-163 Figure 98 6. Log File Conversion Settings The options available in the window and their use are described in Table 44 below.
Chapter 5 __________________________________________ Software Configuration and Operation 1101-025 Figure 99 Logged Data in Spreadsheet Program VAISALA ______________________________________________________________________ 161
User's Guide ______________________________________________________________________ Using External Memory Card The external memory card (CF card, CompactFlash) is used to store log files that have been copied or moved from the internal log directory. The data can be retrieved from the external memory card via terminal connection or by switching the memory card to an empty one. NOTE If the CF card has not been formatted, it must be formatted before use.
Chapter 5 __________________________________________ Software Configuration and Operation Automatic Erase from External Memory Card The log group -specific setting Number of days to preserve log files, specified in Lizard setup software, also affects the files stored to the external memory card. The functionality is the same as for internal log memory: - Files older than the selected value [days] will be deleted automatically. - Files are not erased, that is, the automatic cleanup is disabled.
User's Guide ______________________________________________________________________ Resetting QML Logger The Reset command is used for resetting the QML logger. You can either reset the logger immediately or after a specified delay. To reset the logger, proceed as follows: 1. 2. On the Maintenance menu, select Reset. The Reset menu includes two options for resetting the logger: a. To reset the logger immediately, select Immediate. The logger reset begins. b.
Chapter 5 __________________________________________ Software Configuration and Operation Operating Local LCD Display QMD202 The optional Local LCD display QMD202 provides views for instant measurements and basic system information. QMD202 is located inside the enclosure. Navigate between the views by pressing the buttons on the display. NOTE QMD202 is an optional device in AWS330 configuration, and is present as ordered.
User's Guide ______________________________________________________________________ 1011-009 Figure 103 Soil State Display Table 48 Soil State Display Parameters Heading SN TS1 TS2 Parameter Snow depth Soil/water temperature 1 Soil/water temperature 2 Unit cm °C °C Statistic Average Average Average Period 1 min 10 min 10 min 1011-010 Figure 104 System Status Display Table 49 System Status Display Parameters Heading DC T Cfg SW HW Parameter DC supply voltage Internal temperature Configuratio
Chapter 6 ______________________________________________________________ Maintenance CHAPTER 6 MAINTENANCE This chapter provides information that is needed in the basic maintenance of AWS330. Overall Checking Check the mechanics and cabling for any damage and corrosion, and repair if needed. Wipe off or remove excess dirt, dust, sand, or leaves. - Check signal and main cables, connectors, and connections. Check gaskets of the enclosures. Check all grounding cables and lugs.
User's Guide ______________________________________________________________________ Site Maintenance Keep the measurement site in good order to ensure reliable measurements: - Check that the vegetation surrounding the station does not get too long/close to equipment. Regular clipping is advised. - Check that snow does not touch or cover the enclosure and connectors. - Avoid disturbing the possible snow cover under the Snow Depth Sensor IRU-2429 to have representative measurement.
Chapter 6 ______________________________________________________________ Maintenance Disconnecting and Securing Guy Wire 1. 2. Disconnect the detachable guy wire 1 that is on the opposite side of the mast to the hinge. For the location, see Figure 5 on page 40. Connect the snap hook of guy wire 1 to the hole in the hinge. Using Winch 1. 2. Do not open the Allen bolts in the horizontal hinge axle. CAUTION 3. Lower the mast slowly with the winch by turning the handle.
User's Guide ______________________________________________________________________ Erecting Mast To erect the mast after maintenance operations, refer to the section Erecting Mast DKP210 on page 56. CAUTION When erecting the mast, make sure that cables do not get damaged by the hinge. Sensor Support Maintenance When you check the mast, check that the sensor support is firmly attached. Check that the alignment is level with a spirit level.
Chapter 6 ______________________________________________________________ Maintenance Enclosure Maintenance Visual Checking The enclosure requires only a minimal amount of maintenance. Every six months, check that all screws of the mounting clamps are firmly tightened. Check also that the door gasket is undamaged. See also that the bottom connectors are not corroded and that they open easily. You can apply appropriate anti-corrosive/lubricant spray if required.
User's Guide ______________________________________________________________________ Inside Enclosure Maintenance Checking Battery Battery status should be checked every 3 months. This is done either using a multimeter on the batteries' plus and minus terminals or by checking the status LED on the QBR101C battery regulator. 1. 2. 3. Disconnect AC (mains) power supply or external DC. Press the QBR101C test button to see the battery status: - If the LED is green, the battery is OK.
Chapter 6 ______________________________________________________________ Maintenance Field Check NOTE Calibrating Pressure Sensor BARO-1 is a demanding, high-precision task that requires proper facilities. It is recommended that you have the sensor calibrated at Vaisala. The AWS Client software provides means for one-point field check of the BARO-1 sensor.
User's Guide ______________________________________________________________________ Changing Pressure Sensor BARO-1 CAUTION Use an antistatic wrist strap to protect yourself and the equipment from ESD (electrostatic discharge). If the BARO-1 pressure sensor needs to be replaced, do the following: 1. 2. 3. 4. 5. 6. Remove the QML201C logger cover. Unscrew the four mounting screws (number 1 in Figure 107 below) holding BARO-1. Unplug the pressure hose (2) that connects BARO-1 to the logger body.
Chapter 6 ______________________________________________________________ Maintenance GSM/GPRS Antenna Maintenance The antenna requires minimal amount of maintenance. Field repairs are accomplished by changing the complete antenna. AC (Mains) Power Supply Unit Maintenance The AC (mains) power supply unit requires a minimal amount of maintenance. Field repairs are accomplished by changing the complete module. WARNING All electrical installations must be carried by licensed experts.
User's Guide ______________________________________________________________________ Ultrasonic Wind Sensor WMT703 Maintenance WARNING Some WMT703 product versions provide heating for transducers and/or array arms. To avoid injury, do not touch the heated parts of the wind sensor when the heating is enabled. CAUTION When handling WMT703, do not rotate, pull, strike, bend, scrape or touch the transducers with sharp objects. Any impact on the wind sensor array damages the device.
Chapter 6 ______________________________________________________________ Maintenance Visual Inspection It is recommended that you carry out a yearly visual inspection of the wind sensor to ensure correct operation and clean the wind sensor if it becomes contaminated. If necessary, you can also test the operation of WMT700 with an optional verifier, which is a small echo-free chamber. If any of the transducers have been bent, twisted or rotated, the measurement results might not be accurate.
User's Guide ______________________________________________________________________ To perform the test: 1. 2. 3. 4. NOTE Slip the verifier over the three transducers. Refer to Figure 108 below to see how the verifier fits over the transducers. Start wind measurement. The command depends on the selected communication protocol. WMT703 must read less than 0.5 miles per hour (0.22 m/s) with the verifier in place. Remove the verifier. Some random data samples may be lost during the verifier test.
Chapter 6 ______________________________________________________________ Maintenance Snow Depth Sensor IRU-9429 Periodic Maintenance Every month, check that the sensor alignment is correct and the sensor is firmly mounted. Check sensor operation if there is a reason to believe that the readings are erroneous or you receive a sensor status alarm. Check the sensor reading by measuring the depth of the snow with a ruler and comparing it with the reading given by the sensor.
User's Guide ______________________________________________________________________ Air Temperature and Relative Humidity Probe HMP155 Maintenance Visual Check Every three months, check that the temperature and humidity probe mounting is secured and that the cable is in good condition. Cleaning Clean the probe with a soft, lint-free cloth moistened with mild detergent.
Chapter 6 ______________________________________________________________ Maintenance 0802-159 Figure 109 HMP155 Structure The following numbers refer to Figure 109 above: 1 2 3 4 NOTE = = = = Filter O-ring HUMICAP® sensor element Pt100 temperature sensor The Pt100 temperature sensor (number 4 in Figure 109 above) is soldered to the probe. Do not try to remove it. Due to the operating principles of the sensor, no maintenance is required.
User's Guide ______________________________________________________________________ Sending for Calibration Every 12 months, send HMP155 to Vaisala for calibration and replace it with a calibrated spare probe: 1. 2. 3. 4. Remove the old probe from inside the radiation shield. Check the operation of the new probe by warming the sensor head with your hand, and monitor the value change. Place the new probe inside the radiation shield. Send the old probe to Vaisala for calibration.
Chapter 6 ______________________________________________________________ Maintenance Pyranometer CMP6 Periodic Maintenance The pyranometer is an all-weather instrument. Once installed, the pyranometer needs little maintenance. It is recommended that you clean the glass dome of the sensor as part of a regular routine, using water or alcohol. Check the fixture and leveling of the sensor as needed.
User's Guide ______________________________________________________________________ Replacing CMP6 When the pyranometer is shipped from Vaisala for AWS330, it is already calibrated to the station. However, if the sensor is replaced with a new one, the calibration has to be done on site using AWS Client software. For details on the mechanical installation, refer to section Installing Pyranometer CMP6 on page 82. For configuring the pyranometer with AWS Client, proceed as follows: 1. 2. 3.
Chapter 6 ______________________________________________________________ Maintenance 4. 5. 6. The Sensitivity parameter has sensor-dependent use. It affects the gain of the measurement or the sensitivity of the radiation sensor. To calibrate radiation, enter the sensor-dependent sensitivity factor [V/Wm-2], which is given in the type sticker or the calibration sheet of the particular sensor. Calibrate the sensor by selecting Calibrate. Reset the logger and take the new settings into use.
User's Guide ______________________________________________________________________ Mechanical Wind Sensor Set WA15 Maintenance Periodic Maintenance Replace the bearings yearly and check that the printed circuit board is not corroded. Check operation whenever you tilt the mast. Cleaning Heavy contamination in the vane, such as bird droplets or ice, will deteriorate the accuracy of the wind vane. Clean the vane when necessary.
Chapter 6 ______________________________________________________________ Maintenance 3. 4. 5. 6. CAUTION Loosen the three pan head screws at the bottom of the sensor body with a 7-mm tool. Remove the lower body assembly by pulling it straight outward. Loosen the spacer screws with a 7-mm tool and disconnect the heating element outlet. Remove the printed circuit board. Do not twist or bend the connector. This may break the pins. 7. 8. 9. 10. 11. 12. 13.
User's Guide ______________________________________________________________________ NOTE When placing the lower body assembly, make sure that the O-ring is correctly positioned between the upper and lower bodies. It is recommended that you replace the O-rings with new ones before reassembly. 5. 6. Tighten the hex nut of the connector (2). Connect the cable plug to the sensor body connector. Fasten the sensor body on the cross arm with three screws. Mount the vane assembly onto the sensor body.
Chapter 6 ______________________________________________________________ Maintenance 0204-045 Figure 112 WAV151 Assembly The wind vane has been counter-balanced at the factory, but it can be readjusted if necessary. To do this, loosen the vane assembly and place it on its side on the table. A correctly balanced vane will stay in horizontal position.
User's Guide ______________________________________________________________________ Replacing Bearings of WAA151 Replacement of the bearings should only be done by a trained technician. To replace the ball bearings, follow the procedure below and refer to Figure 113 on page 193. 1. CAUTION The cup wheel fixing screw has been treated with sealant. Do not remove the fixing screw to ensure perfect sealing after reassembling. 2. CAUTION Loosen the hex nut of the connector (use a 22-mm tool).
Chapter 6 ______________________________________________________________ Maintenance To reassemble the sensor, reverse the earlier work order. 1. NOTE Be careful when handling the new ball bearings. Do not drop them or force them onto the shaft. 2. CAUTION 4. Attach the heating element outlet (5) to the circuit board. Put the circuit board in place and fasten it with spacers (5). Put the lower body assembly (4) carefully into place. Fasten the three screws (3) at the bottom of the sensor.
User's Guide ______________________________________________________________________ The following numbers refer to Figure 113 on page 193: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 = = = = = = = = = = = = = = Cup wheel assembly Hex nut of the connector Screw M6x16 DIN7991, 3 pcs Lower body Spacer, 3 pcs, and heating element Printed circuit board (PCB) Chopper disc External retaining ring, body Spacer ring Internal retaining ring, shaft Ball bearings Shaft and upper body assembly Ball bearings O-rings, 2 pcs 192
Chapter 6 ______________________________________________________________ Maintenance 0204-043 Figure 113 WAA151 Assembly VAISALA ______________________________________________________________________ 193
User's Guide ______________________________________________________________________ Rain Gauge RG13(H) Maintenance Periodic Maintenance Check Rain Gauge RG13(H) once a week. In the fall, or when leaves are falling and there is a lot of debris in circulation, it is recommended that you check the sensor daily or, at minimum, once a week. NOTE If the gauge is connected to the QML data logger and the data logger is operating, avoid tipping the cup assembly to avoid erroneous measurements.
Chapter 6 ______________________________________________________________ Maintenance Replacing Components In some overvoltage conditions, such as the case of a lightning strike, some protective components might get damaged and need replacement. To replace other components than the ones described here or in the previous sections, contact Vaisala. Changing Backup Batteries 1. 2. Switch off the external AC (mains) or DC inlet and detach the flat connectors from the batteries. Replace the battery.
User's Guide ______________________________________________________________________ Changing Communication Modules CAUTION In general, it is not advisable to open the QML data logger cover in the field. The communication modules of the QML201C data logger are attached to the circuit board of the logger. In case a communication module has to be replaced, remove the logger cover and the old module by pulling from the edges.
Chapter 6 ______________________________________________________________ Maintenance Changing Power Supply Set 1. 2. 3. 4. 5. 6. 7. 8. Turn off the AC (mains) power to AWS330, that is, switch off the external AC (mains) inlet. Unscrew the right-hand side installation plate and flip it down. Remove the power supply set connectors. Remove the cables from the screw terminals and the surge protector below the power supply units.
User's Guide ______________________________________________________________________ Changing Surge Protectors 1. 2. Turn off the AC (mains) power to AWS330, that is, switch off the external AC (mains) inlet. For AC (mains) power surge protector, do the following: - Unscrew the right-hand side installation plate and flip it down. - If the indicator on the top of the surge protector plug is red, remove the plug module (indicated with an arrow in Figure 116 below) and replace the plug with a new one.
Chapter 6 ______________________________________________________________ Maintenance 3. For QSA224DC (data line) and PT5-HF-12DC-ST (Ethernet) surge protectors, do the following: - Unscrew the middle side installation plate and flip it down. - Disconnect the wires from the faulty surge protector and remove the surge. - Install a new surge protector in the reverse order.
User's Guide ______________________________________________________________________ Spare Parts Table 52 Vaisala Automatic Weather Station AWS330 Spare Parts Order Code 19369SP 19954SP 25003SP 26935SP 215050SP DSE101SP DSI486SP DTR503A QBR101CSP QMD202SP QMI102SP QMI118SP QML201CSP QSA224DCSP BARO-1QMLSP 219452SP 7150WA 6389WA 16644WA 1433WA 1434WA B1A2A004B1A2 B1B2A004B1A2 D2AB11A0A1A1A0A N1A2 H1A2 N2A2 H2A2 Common Name Sensor connector (5P,M12, shielded) Sensor connector Power connector AC (mains) lin
Chapter 6 ______________________________________________________________ Maintenance QML Logger QML201C Maintenance Updating AWS330 Configuration File AWS330 functionality is based on a configuration file that is pre-loaded to QML logger at factory. It may later become necessary to update the configuration file in the logger, for example to fix a problem or to introduce a new feature. CAUTION Update the configuration file only when instructed by Vaisala, with a file received or downloaded from Vaisala.
User's Guide ______________________________________________________________________ NOTE Make sure to select appropriate file for your system; see Table 53 below. Table 53 AWS330 Setup Alternatives File Name metawsaa.adc metawsba.adc mewtawsna.adc 5.
Chapter 6 ______________________________________________________________ Maintenance 2. NOTE By default, the loader.exe application uses the COM1 port of the computer. When you can use the COM1 port, proceed with step a. below; otherwise, proceed as instructed in step b. If any other COM port of the computer than COM1 is used for loading the software to AWS330, you need to make a .bat file for software loading. Refer to step b. a.
User's Guide ______________________________________________________________________ 8. After a few minutes, the display shows Loading 100 %. 9. The program restarts with an existing setup, and AWS330 is now ready to operate. If you are having problems when loading software to the logger, for example, if loading is interrupted and you get the message Load Error -1, try again, with all other Windows programs closed except Command Prompt. Loading may be interrupted due to a corrupted bin.
Chapter 7 ___________________________________________________________ Troubleshooting CHAPTER 7 TROUBLESHOOTING This chapter describes common problems, their probable causes and remedies, and provides contact information for technical support. Troubleshooting QML Logger QML201C When troubleshooting the QML logger, make sure you have the tools listed in Table 54 below.
User's Guide ______________________________________________________________________ Opening Service Connection through QML Logger For instructions on operating AWS Client, refer to Chapter 5, Software Configuration and Operation, on page 103. The command interface of the modem or a serial sensor can be accessed through the QML logger, for example, to send the AT commands manually. To control the modem or sensor directly, first open the service connection to the logger.
Chapter 7 ___________________________________________________________ Troubleshooting In problem situations, give the following commands: errors, spset, SYSINFO, and warnings. When Capture all is selected, the results are saved into a file for future use. General Troubleshooting Procedure Follow the procedure below to troubleshoot the QML logger. Refer to the applicable sections of this chapter for details when requested.
User's Guide ______________________________________________________________________ 6. 7. 8. 9. Disconnect the power and replace the communication modules. - Replace one module at a time and try to restart the system to find out the damaged one. - Restart the system. The QML logger does not receive commands entered in the AWS Client software. - Check the maintenance cable connection and that you have the correct maintenance cable in use. - The terminal connection is not open.
Chapter 7 ___________________________________________________________ Troubleshooting c. d. 10. 11. If the malfunctioning sensor is measured by the logger: - Open the sensor calibration view in the AWS Client software; see section Determining Sensor Status on page 213 - Check the sensor status and compare the value against the sensor status list Appendix D, Sensor Status Values, on page 293.
User's Guide ______________________________________________________________________ Visual Check Open the enclosure and check that all the equipment is present. Check that the QML logger, power supply, and communication devices are connected properly. Remove the cover of the logger for visually checking the CPU board and other components located under the cover. In Figure 121 below, the logger is shown without the cover and the optional communication modules.
Chapter 7 ___________________________________________________________ Troubleshooting Determining QML Logger Operation Mode You can watch the status LED to determine the operation mode. The LED is located on the QML logger board and it is visible through the logger cover.
User's Guide ______________________________________________________________________ Resetting QML Logger To reset the QML logger, enter the reset command (recommended), or press the reset button indicated by number 1 in Figure 122 below. 1004-121 Figure 122 Reset Button on QML Logger A short reset (pressing the reset button quickly) performs the same reset as giving the command and starts the program again.
Chapter 7 ___________________________________________________________ Troubleshooting Determining Sensor Status Sensor status values give indication about the general status of the sensor interfaces. You have two alternatives to view the status value for a sensor: 1. 2. Status for all sensors is displayed in the Table message; see section Table on page 28.
User's Guide ______________________________________________________________________ NOTE When Value is expressed as N/A, it indicates that the calibration factor has been altered but not saved, the sensor has not been measured or its measurement channel has failed, or the sensor is disabled. Further information about the possible reason can be obtained by comparing the value in the Status column against the values listed in Appendix D, Sensor Status Values, on page 293.
Chapter 7 ___________________________________________________________ Troubleshooting Troubleshooting TCP/IP-Based Telemetry Typical possibilities for troubleshooting TCP/IP-based telemetry operation with the QML logger are as follows: NOTE This manual will not attempt to give general guidelines on network design or troubleshooting issues, such as IP addressing.
User's Guide ______________________________________________________________________ 9. To monitor different telemetry related services, a shell command can be used to enable extra output.
Chapter 7 ___________________________________________________________ Troubleshooting 10. 11. To send the AT commands manually, the command interface of the modem can be directly accessed. To control the modem directly, open the service connection to the QML logger. With AWS330, the device is connected to the second DSI486 communication port at the module place MOD1, type open DSI486_0_1. To terminate this operation, type close.
User's Guide ______________________________________________________________________ Troubleshooting GSM/GPRS Modem Below are listed some useful tips on how to troubleshoot problems with GSM connection. 1. 2. 3. Use a cellular phone to verify that the signal strength in the site is sufficient or that the system SIM card has access to the network.
Chapter 7 ___________________________________________________________ Troubleshooting Commands for Troubleshooting Purposes For most of the sensor inputs, there are data validation parameters to check the following quality parameters for the measurement: - Maximum value: the maximum climatological value for the sensor measurement. - Minimum value: the minimum climatological value for the sensor measurement. - Step change: the maximum step change for the sensor value between two consecutive measurements.
User's Guide ______________________________________________________________________ Example: / W> warnings Warning: Break occurred 9 times first in uart.cpp[84] during thread: 00019F60 [AbsTimerT] object pointer: 106C [component: COM0] Warning: Frame occurred 14 times first in uart.cpp[83] during thread: 00019F60 [AbsTimerT] object pointer: 106C [component: COM0] The Break and Frame warnings mean that most likely you have turned your PC off and on again.
Chapter 7 ___________________________________________________________ Troubleshooting Command SYSINFO You can acquire a report that contains system information by using the SYSINFO terminal command. The command lists parameters that are useful especially when troubleshooting the system or when contacting Vaisala technical support. Example: /Ext > SYSINFO Serial # Hardware Software Checksum Boot sw version Program flash System RAM Free memory Internal temp.
User's Guide ______________________________________________________________________ where Serial # Hardware Software = = = Boot sw version = Serial number of the logger PCB Hardware revision of the logger PCB Software version for the operating software and its checksum Version of the QML logger boot software Program flash = Total amount of program memory System RAM Free memory Internal temp.
Chapter 7 ___________________________________________________________ Troubleshooting Command netif The netif command is used to control and check the status of network interfaces. The command syntax is: netif [open | close ] Parameters for the netif command are described in Table 62 below.
User's Guide ______________________________________________________________________ Command ipconfig The command ipconfig shows the IP configuration for all open network interfaces. The command has no parameters. An example of ipconfig command output is presented below: /> ipconfig pp1: (default network interface) ÜP POINTOPOINT NOARP MTU:1500 DHCP Enabled. . . : No IP Address. . . . : 62.78.127.31 Subnet Mask . . . : 255.255.255.0 Default Gateway . : 62.72.127.1 DNS Servers . . . : 217.78.192.22 217.78.
Chapter 7 ___________________________________________________________ Troubleshooting Command net The net command has multiple command options for showing various network statistics. The command syntax is: net Parameters for the net command are described in Table 63 below.
User's Guide ______________________________________________________________________ Examples of net command output are presented below: /> net warnings Warning: NTP server changeover (se.pool.ntp.org) occurred 1 times first in ntpclient.cpp[827] during thread: 00063938 [Worker_1] object pointer: 6AEF0 [component: NTPClient_1] Warning: Unable to resolve NTP server IP (fi.pool.ntp.org) occurred 1 times first in ntpclient.
Chapter 7 ___________________________________________________________ Troubleshooting Command ftp FTP client functionality can be used from the QML logger command shell to transfer files and to test the connection to an FTP server. The ftp command syntax is ftp
User's Guide ______________________________________________________________________ Command ntp The command ntp can be used to manually set the QML real-time clock and to test the connection to an NTP server. The command syntax is: ntp [maxroundtrip] [interface] Parameters for the ntp command are presented in Table 65 below.
Chapter 7 ___________________________________________________________ Troubleshooting Problem Situations for Ultrasonic Wind Sensor WMT703 Table 66 Some Problem Situations and Their Remedies Problem Connection to WMT703 is lost. Wind measurement failure. WMT703 is sending irregular data values. Probable Cause Power supply is not sufficient. Disturbance from the installation site is causing measurement problems.
User's Guide ______________________________________________________________________ Command Connection to WMT703 In order to troubleshoot or reconfigure WMT703, you may need to open a command connection to the sensor as follows: 1. 2. 3. Start AWS Client software. From the AWS Client menu, select Settings - Options. Create two new function key mappings as shown in Figure 124 below. - $0OPEN - 1101-040 Figure 124 4. 5. 6. 7.
Chapter 7 ___________________________________________________________ Troubleshooting 8. NOTE If WMT703 responds with prompt >, the connection has been successfully opened. When entering commands for WMT703, instead of terminating command with ENTER, use the function key programmed in step 3 on page 230 to send to the sensor. Also note that WMT703 does not echo characters when using RS485 link.
User's Guide ______________________________________________________________________ Troubleshooting Mechanical Wind Sensor Set WA15 WA15 Wind Vane Table 67 Problem Data is not received from the sensor. Some Common Problems and Their Remedies Probable Cause Sensor is not powered properly. Improper or loose connections. After removing the connector's hex nut, the connector is bent, which breaks the connection wires. Sensor is mechanically damaged. Sensor body is covered Sensor heating does not function.
Chapter 7 ___________________________________________________________ Troubleshooting WA15 Anemometer Table 68 Problem Data is not received from the sensor. Some Common Problems and Their Remedies Probable Cause Sensor is mechanically damaged. Improper or loose connections. After removing the connector's hex nut, the connector is bent, which breaks the connection wires. The sensor is not powered properly. Sensor body is covered Sensor heating does not function. with ice and snow.
User's Guide ______________________________________________________________________ Troubleshooting Power Supply Units Table 70 Troubleshooting Power Supplies Problem Probably Cause Power supply LED is not Blown fuse or main ON. switch off Table 71 Remedy Check that AC (mains) power is connected and main switch is on. Replace the fuse.
Chapter 7 ___________________________________________________________ Troubleshooting Product Returns If the product must be returned for service, see www.vaisala.com/services/return.html. For contact information of Vaisala Service Centers, see www.vaisala.com/services/servicecenters.html.
User's Guide ______________________________________________________________________ Requesting RMA If the product needs repair, please follow the instructions below to speed up the process and to avoid extra costs to you. 1. 2. 3. NOTE Read the warranty information. Contact Vaisala technical support via e-mail or fax and request for RMA (Return Material Authorization) and shipping instructions. Proceed as instructed by Vaisala technical support; refer to section Technical Support on page 234.
Chapter 8 ____________________________________________________________ Technical Data CHAPTER 8 TECHNICAL DATA This chapter provides the technical data of AWS330. Wiring QML Logger QML201C The QML logger includes: 1. 2. 3. 4. Ten measurement channels and one internal channel for pressure measurement. One connector block for power supplies. One connector block for communication channels. Two blocks for optional communication modules.
User's Guide ______________________________________________________________________ Table 72 Analog Measurement Channels Channels Pin Name Description CH0, CH1, CH2, CH3 E 12 V/25 mA voltage excitation ON/OFF, 24-bit ADC voltage can be measured. OR: 100 μA/1mA current excitation. H Analog input (High) L Analog input (Low) C The pin has been connected to ground (GND) via a 10 Ω resistor so that the current can be measured.
Chapter 8 ____________________________________________________________ Technical Data 1003-029 Figure 125 Connector Blocks VAISALA ______________________________________________________________________ 239
User's Guide ______________________________________________________________________ Communication Modules The communication modules are housed inside the QML logger. Dual RS-485 Module DSI486 0906-070 Figure 126 Dual-Isolated RS-485 Communication Module DSI486 Data channel A is always used in the RS-485 mode. In 2-wire RS-485, both transmitted and received data is sent via this channel. In 4-wire RS485, channel A can either transmit or receive, depending on the configuration.
Chapter 8 ____________________________________________________________ Technical Data Figure 127 on page 240 provides a schematic wiring diagram for the dual RS-485 connection, a dual 2-wire connection utilizing both channels. The correct jumper settings for the channel B are listed in Table 74 on page 242. The jumpers are located on the module as illustrated in Figure 128 below.
User's Guide ______________________________________________________________________ Table 74 Jumper Settings for DSI486-B Jumper X4 Connected Pins 1-2 2-3 1-2 2-3 1-2 X5 1-2 X3 X6 Function Channel B RS-232 mode Channel B RS-485 mode (default) Channel B RS-485 mode (default) Channel B RS-232 mode Channel A RS-485 line terminating resistor active Channel B RS-485 line terming resistor active. Do not use in RS-232 mode The dual RS-485 module also provides an SDI-12 connection.
Chapter 8 ____________________________________________________________ Technical Data Digital I/O Module QMI118 1004-041 Figure 131 Digital I/O Module QMI118 The QML logger provides the possibility to extend the I/O capacity with the optional digital I/O module QMI118 equipped with eight inputs and eight outputs. The digital I/O module interfaces to the logger via the SPI connector.
User's Guide ______________________________________________________________________ 1003-030 Figure 132 Digital I/O Module Wiring Diagram (Digital Outputs) 244 _________________________________________________________________ M211296EN-B
Chapter 8 ____________________________________________________________ Technical Data Ethernet Communication Module DSE101 1004-122 Figure 133 Ethernet Communication Module DSE101 The Ethernet module DSE101 provides a 10base-T connection, which is compatible with 100 Mbps and 1 G switches; DSE101, however, operates at 10 Mbps. Supported by software, the module allows virtual serial port connections and socket connections to be established to the QML logger.
User's Guide ______________________________________________________________________ Specifications QML Logger Table 76 QML201C Logger Specifications Property Processor A/D conversion Memory Data logging memory Sensor inputs Serial communication Standard Optional Speed Parameters Ethernet communication Standard Speed Parameters TCP/IP communication Supported protocols Voltage (external powering) Power consumption Temperature (operating) Temperature (storage) Humidity Real-time clock (standard) backup t
Chapter 8 ____________________________________________________________ Technical Data Table 77 QML201C Logger Regulatory Compliances Property Emissions ESD immunity RF field immunity EFT immunity Surge (lightning pulse) Conducted RF immunity Description/Value CISPR 22 class B (EN55022) IEC 61000-4-2 IEC 61000-4-3 IEC 61000-4-4 IEC 61000-4-5 IEC 61000-4-6 Barometric Pressure Table 78 Pressure Sensor BARO-1 Specifications Property Sensor type Measuring range Resolution Operating temperature Descriptio
User's Guide ______________________________________________________________________ Power Supply Accessories Battery Table 80 26 Ah Backup Battery Specifications Property Type Nominal voltage Nominal capacity Self discharge Expected lifetime Dimensions w × d × h Weight Description/Value Sealed, lead-acid 12 V 26 Ah 3% per month 4 … 5 years 166 × 176 × 128 mm (6.5 × 6.9 × 4.9 in.) 8.
Chapter 8 ____________________________________________________________ Technical Data Battery Regulator QBR101C Table 83 Battery Regulator QBR101C Specifications Property Maximum input voltage (DCin, SOL1, SOL2) Maximum input current (DCin) Solar panel input (SOL1, SOL2) Recommended input voltage to DCin Max. load current (backup output) Recommended battery capacity range Battery charge current limit Max.
User's Guide ______________________________________________________________________ Four-Wire Line Surge Protector PT5-HF-5DC-ST Table 84 Ethernet Line Surge Protector PT5-HF-5DC-ST Specifications Property Total surge current (8/20) μ Ambient temperature (operation) Mounting Nominal discharge surge current In (8/20) μs (Core-Earth) Nominal current Direction of action Nominal voltage Dimensions (w × d × h) Pitch unit Description/Value 20 kA -40 ...
Chapter 8 ____________________________________________________________ Technical Data Solar Panel Table 86 Solar Panel SOLAR33 Specifications Property Nominal voltage Peak power (Pp) at 1 kW/m2 at +25 °C Voltage at peak power (Vpp), typical Current at peak power (Ipp), typical Short-circuit current (Isc), typical Temperature coefficient of current Operating temperature Dimensions l × w × d Weight Output cable Description/Value 12 VDC 33 W 17.2 V 1.92 A 2.06 A 0.58 mA/°C -40 ... +85 °C (-40 ...
User's Guide ______________________________________________________________________ Enclosure Table 88 Large Stainless Steel Enclosure Specifications Property Material Protection rating Maximum dimensions including radiation shield (h × w × d) Weight without radiation shield Wall mounting Temperature range Description/Value Stainless steel IP 66, equivalent with NEMA 4X 615 × 520 × 263 mm (24.2 × 20.5 × 10.4 in.) 13.7 kg (30.2 lb.) By four M8 × 15 mm screws from rear side -50 … + 100 °C (-58 ...
Chapter 8 ____________________________________________________________ Technical Data Communication Modules RS-485 Module Table 92 Dual-Isolated RS-485 Communication Module DSI486 Specifications Property Channels Channel A Channel B SDI Isolation Operating modes Power consumption Idle Operating Connection distance (max.) Temperature (operating) Temperature (storage) Humidity Description/Value RS-485 RS-232 or RS-485 SDI-12 Galvanic Two 2-wire RS-485 and SDI-12 2-wire RS-485, RS-232, and SDI-12 2.8 ...
User's Guide ______________________________________________________________________ Sensors Snow Depth Sensor IRU-9429 Table 94 Ultrasonic Snow Depth Sensor IRU-9429 Specifications Property Operating range Available outputs Operating voltage Programming voltage Total current draw Maximum power rating Housing Transducer type Ratings Resolution Operating temperature Frequency Description/Value 0.15 ... 10.67 m (½ ... 35 ft.) 4–20 mA, 4–20 mA + (2) NPN, 0–2.
Chapter 8 ____________________________________________________________ Technical Data Mechanical Wind Sensor Set WA15 Mechanical Wind Sensor Set WA15 consists of Vaisala Anemometer WAA151 and Vaisala Wind Vane WAV151.
User's Guide ______________________________________________________________________ Vaisala Wind Vane WAV151 Table 99 Vaisala Wind Vane WAV151, Wind Direction Property Measurement range at wind speed 0.4 ... 75 m/s Starting threshold Resolution Damping ratio Overshoot ratio Delay distance Table 100 <0.4 m/s ±2.8° 0.19 0.55 0.
Chapter 8 ____________________________________________________________ Technical Data Ultrasonic Wind Sensor WMT703 Table 102 Wind Speed Property Measurement range Starting threshold Resolution Response time Available variables Table 103 Wind Direction Property Measurement range Starting threshold Resolution Response time Available variables Table 104 Description/Value 0 … 360 ° 0.
User's Guide ______________________________________________________________________ Table 105 General Property Heating Operating temperature Description/Value Transducer heating 30 W -55 ... +70 °C Operating voltage Absolute maximum Heating voltage Typical ranges Absolute maximum IP class Material Body Transducers Mounting kit Dimensions (h × w × d) Weight Connector 9 ... 36 VDC 40 VDC 24 ...
Chapter 8 ____________________________________________________________ Technical Data 1004-117 Figure 136 Mounting Kit FIX70 Dimensions in Millimeters Rain Gauge RG13(H) Rain Gauge RG13H features a heating element but otherwise complies with the same specifications as Rain Gauge RG13.
User's Guide ______________________________________________________________________ Air Temperature and Relative Humidity Probe HMP155 Table 107 HMP155 Outputs Property Voltage output Resistive Pt100 4-wire connection Average current consumption (+15 VDC, load 100 kOhm), 0…1 V output Operating voltage Setting time at power-up, voltage output Table 108 Description/Value 0 ... 1 V < 3 mA 7 ...
Chapter 8 ____________________________________________________________ Technical Data Soil Temperature QMT110 Table 109 Soil Temperature Sensor QMT110 Specifications Property Sensor type Performance Sensitivity Dimensions Material Environmental Cable Ingress protection Description/Value Pt100-type RTD element 1/4 DIN 43760B 0.385 ohm/°C (DIN 43760) Ø 6 mm, length 150 mm Stainless steel, AISI 316 Watertight from 0.1 to 4 bar PUR black, 5 × 0.
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Appendix A __________________________________________________________ Wiring Diagrams APPENDIX A WIRING DIAGRAMS This chapter contains the wiring diagrams for AWS330.
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Appendix A __________________________________________________________ Wiring Diagrams VAISALA ______________________________________________________________________ 269
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Appendix A __________________________________________________________ Wiring Diagrams VAISALA ______________________________________________________________________ 271
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Appendix B ______________________________________________________ Calculation Formulas APPENDIX B CALCULATION FORMULAS This chapter contains information on the WMO-compliant calculation formulas used in the measurements. Dewpoint Temperature The dewpoint component calculates the temperature, where dew is beginning to form from moist air. This calculation is based on air temperature and relative humidity. Dewpoint temperature (td) is calculated with the following WMO (Annex 4.B) formulas: e´ 243.
User's Guide ______________________________________________________________________ Heat Index The heat index measures how hot it feels when the effect of humidity is added to high temperature. This calculation uses two source values, temperature and humidity, and produces one result value, the heat index. The calculation formula is as follows: HI = 16.923 + 0.185212 * TA + 5.379410 * RH – 0.100254 * TA*RH + 9.41695*10-3 * TA2 + 7.28898*10-3 * RH2 + 3.45372*10-4 * TA2*RH – 8.14971*10-4 * TA*RH2 + 1.
Appendix B ______________________________________________________ Calculation Formulas Wind Chill (NWS 2001) Wind chill, which is an estimate of the heat loss from an open surface, is calculated according to the formula updated by NWS in 2001: Wch = 13.13 + 0.62 ⋅ T A − 13.95 ⋅ WS 0.16 + 0.486 ⋅ T A ⋅ WS 0.
User's Guide ______________________________________________________________________ Pder = ( Pws (Twet + 0.1) − 0.000662 ⋅ T A ⋅ (T A − (Twet + 0.1)) − Phit ) ⋅ 10.0 Twet≤0: Phit = Pwi(Twet) - 0.000583 ⋅ PA ⋅ (TA - Twet) Pder = ( Pwi(Twet + 0.1) - 0.000583 ⋅ TA ⋅ (TA - (Twet + 0.1)) - Phit ) ⋅ 10.
Appendix B ______________________________________________________ Calculation Formulas Pwi(t) is calculated with the formula: a0 Pwi (t ) = exp + a1 + a 2 ⋅ t + a3t 2 + a 4 ⋅ t 3 + a5 ⋅ t 4 + a6 ⋅ log(t ) ⋅ 0.01 t where a0 a1 a2 a3 a4 a5 a6 t = = = = = = = = Table 115 -5674.5359 6.3925247 -9.677843E - 03 0.00000062215701 2.0747825E - 09 -9.484024E - 13 4.
User's Guide ______________________________________________________________________ QFE/QFF Pressure The reduced air pressure QFE (pressure at a certain level) or QFF (pressure at sea level) are calculated as follows: QF = PA ⋅ e L T1 where T1 L TA PA QF = = = = = Table 116 7996 + 0.0086 * L + 29.
Appendix B ______________________________________________________ Calculation Formulas QNH Pressure QNH, the pressure reduced to mean sea level according to ICAO standard atmosphere, is calculated as follows: QNH = QFE ⋅ e T1 288.2 + 0.00325⋅ ALT where T1 ALT QFE QNH ln( ) = = = = = Table 117 0.03416 ⋅ ALT ⋅ [1 - 0.19025 ⋅ (ln (QFE) - 6.
User's Guide ______________________________________________________________________ Wind Calculation Formulas Wind Speed Average Instant wind speed average is calculated using the following formula (3 s calculation): n WSA = ( WS i ) / n i =1 where WSA Wsi N = Wind speed average = Wind speed instant value = Number of wind speed instant values When the source is a calculated data table, the following formula is used (2 and 10 minute calculations): n WSA = ( WSATi ) / n (16) i =1 where WSA = Wind s
Appendix B ______________________________________________________ Calculation Formulas Scalar Wind Direction Average Method Wind direction average calculation using the Scalar method is based on the assumption that the source direction value does not differ more than 180° from the previous average value. The previous average value is marked as 0° and the source values are scaled with respect to that point so that the result varies between -180° and 180°.
User's Guide ______________________________________________________________________ Sunshine Duration Sunshine duration calculation reports whether the sun is shining or not. The sun is considered to be shining, if global radiation (G) is more than 120 W/m2. Also, the ratio G/G0, where G0 is the calculated extraterrestrial global radiation (on top of the atmosphere), must be over 0.4. Calculation of G0 requires stations position (longitude and latitude), current (= local) time, and day number (0-365).
Appendix B ______________________________________________________ Calculation Formulas Calculation of Zenith Angle e e = arccos(sin( Lat ) ⋅ sin δ + cos( Lat ) ⋅ cos δ ⋅ cos ω where Lon Lat = Station longitude = Station latitude δ = (0.006918 − 0.399912 ⋅ cos A + 0.070257 ⋅ sin A − 0.006758 ⋅ cos(2 A) + 0.000908 ⋅ sin(2 A)) ⋅ 180 π ω = (TST − 12.0) ⋅ 15 A = 360 ⋅ DN − 1 365 TST = LMT + EQ 60 LMT = GMT + Lon ⋅ 4 60 GMT = CT − TS EQ = 0.0172 + 0.4281 ⋅ cos A − 7.3515 ⋅ sin A − 3.
User's Guide ______________________________________________________________________ Table 119 Inputs for Sunshine Duration Calculation Input Global radiation (G) Latitude (Lat) Longitude (Lon) Variable GIRRAVG1M, see Table 9 on page 25 Station parameter 'Latitude'; see section Location Parameters on page 115 Station parameter 'Longitude'; see section Location Parameters on page 115 284 _________________________________________________________________ M211296EN-B
Appendix B ______________________________________________________ Calculation Formulas Evapotranspiration Evapotranspiration is calculated using the Penman-Monteith equation. The evapotranspiration calculation estimates the loss of water from a vegetative surface trough the combined process of plant transpiration and soil evaporation. It is calculated with the following formula: Eto = 900 U 2 (e a − e d ) T + 273 Δ + γ (1 + 0.34U 2 ) 0.
User's Guide ______________________________________________________________________ Soil Heat Flux (G) T − Tn −1 G = cs d s n Δt where Tn Tn-1 Δt cs = = = = ds = Temperature on day n [°C] Temperature on preceding day n-1 [°C] Time period [days] Volumetric heat capacity [MJ m-3 °C-1] (2.1 for average moist soil is used) Estimated effective soil depth [m] (0.2 m is used) Psychometric Constant (γ) γ = CpP ελ ⋅ 10 −3 = 0.
Appendix B ______________________________________________________ Calculation Formulas Wind Speed (U2) Estimate wind speed at 2 m height when measured at height z. 4,87 U2 = Uz ln((67.8 z ) − 5.42) where Uz z = = Wind speed measured at height z [ms-1] Height of wind speed measurement [m] Vapor Pressure Deficit (ea-ed) e (T ) + ea (Tmin ) VPD = (ea − ed ) = a max − ed 2 where ea ed = = Saturation vapor pressure [kPa] Actual vapor pressure [kPa] 17.
User's Guide ______________________________________________________________________ Table 120 Inputs for Evapotranspiration Calculation Input Net radiation Rn Temperature values T, Tn, Tn-1, Tmax, Tmin Relative humidity values RHmax, RHmin Wind speed Uz Atmospheric pressure P Variable(s) GIRRAVG1D; see Table 9 on page 25 Station parameter 'evap_albedo'; see Table 24 on page 119 Daily statistical values derived from TAAVG1M; see Table 4 on page 22 Daily statistical values derived from RHAVG1M; see Table
Appendix C _______________________________________________________ Example Messages APPENDIX C EXAMPLE MESSAGES This chapter contains example AWS330 messages. CSV Message Note: The actual message does not contain linefeeds. (S:AWS330;D:101129;T:061200;TAAVG1M:0.3;TAAVG1H:0.1; TAAVG1D:-0.3;TAMIN1D:-0.6;TAMAX1D:2.3;RHAVG1M:67; RHAVG1H:56;DPAVG1H:-7.4;DPAVG1M:-5.2;TBAVG1M:1.1; TBAVG1H:-2.2;HIAVG1M:0.3;WCHAVG1M:2.0; QFEAVG1M:1018.3;QFEAVG1H:1017.4;QFEMIN1H:1014.4; QFEMAX1H:1020.1;QFEAVG1D:1020.
User's Guide ______________________________________________________________________ Table Message Station name: Date: AWS330 2010.11.26 10:29:13 MAWS: Internal temperature: DC supply voltage: 17.7 13.5 Sensors: Temperature: Air pressure: Relative humidity: Wind direction: Wind speed: Precipitation: Snow depth: Solar radiation: Soil temperature1: Soil temperature2: Instant 0.3 1000.0 64 68 3.8 0.0 1275 630 -0.7 -3.1 Average 0.3 1000.0 64 77 3.4 0 12.5 630 -0.2 -2.
Appendix C _______________________________________________________ Example Messages Table Message with Alarm List Station name: Date: MAWS: Internal temperature: DC supply voltage: AWS330 101129 101209 66.0 9.5 Sensors: Temperature: Air pressure: Relative humidity: Wind direction: Wind speed: Precipitation: Snow depth: Solar radiation: Soil temperature1: Soil temperature2: Instant ////// 1000.0 61 47 27.0 0.0 1277 0 -1.5 -3.7 Average ////// 1000.0 61 ///// ////// 0 -127.7 0 -1.8 -3.
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Appendix D ______________________________________________________ Sensor Status Values APPENDIX D SENSOR STATUS VALUES This chapter contains sensor status values. Table 121 Value 0 1 2 3 4 5 Sensor Status List Description Sensor is working properly (OK). Not measured yet. Interface is not initialized. Communication timeout has occurred. Unknown data is received. Communication is functioning, but the sensor reports errors. Use sensor's own service interface to find out the cause.
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