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USER'S GUIDE Vaisala Serial Wind Transmitter WAC155 M210822EN-A...
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The contents are subject to change without prior notice. Please observe that this manual does not create any legally binding obligations for Vaisala towards the customer or end user. All legally binding commitments and agreements are included exclusively in the...
Chapter 4, Operation: This chapter contains information that is needed to operate the Vaisala Serial Wind Transmitter WAC155. Chapter 5, Maintenance: This chapter provides information that is needed in basic maintenance of the Vaisala Serial Wind Transmitter WAC155.
You can send comments to us by e- mail: manuals@vaisala.com. Product Related Safety Precautions The Vaisala Serial Wind Transmitter WAC155 delivered to you has been tested for safety and approved as shipped from the factory. Note the following precautions:...
ESD Protection Electrostatic Discharge (ESD) can cause immediate or latent damage to electronic circuits. Vaisala products are adequately protected against ESD for their intended use. However, it is possible to damage the product by delivering electrostatic discharges when touching, removing, or inserting any objects inside the equipment housing.
The allegedly defective Product or part shall, should Products supplied hereunder, which obligations and Vaisala so require, be sent to the works of Vaisala or to liabilities are hereby expressly cancelled and waived. such other place as Vaisala may indicate in writing,...
WAC155 The Vaisala Serial Wind Transmitter WAC155 converts the digital data supplied by the Vaisala 151 and 252 Series wind sensors for use in the RS-485 bus. The WAC155 transmitter consists of a component board in a junction box and a cross arm for mounting the wind sensors; see...
User's Guide ______________________________________________________________________ The main features of the WAC155 are as follows: Communication with NMEA 0183 compliant protocol over RS-485 electrical interface (half-duplex) Capable of measuring the wind parameters at a configurable interval using the instant method according to the WMO standard...
Additional protection is needed in regions with frequent, severe thunderstorms, especially when long line cables (> 30m) are used. Vaisala recommends using a surge protector such as the WSP150 in all sites where there is an elevated risk of lightning strike.
User's Guide ______________________________________________________________________ 0204-040 Figure 2 Recommended Mast Location in Open Area In general, any object of height (h) will not remarkably disturb wind measurement at a minimum distance of 10 h. There should be at least 150 m open area in all directions from the mast. Refer to Figure 2 on page 14 ___________________________________________________________________M210822EN-A...
(H), the minimum length of the mast is 1.5 W. Installation Procedure For installation, follow the procedure below and refer to corresponding sections for details. Remove the four screws holding the cover of the WAC155 transmitter. Remove the cover. Select the RS-485 termination according to the instructions in section Jumper Settings on page Enter the power and signal cables through the cable glands(s).
Termination is implemented by a 120 resistor on the component board. In a simple point-to-point configuration where only one WAC155 transmitter is used the jumper is always in ON position. In a multidrop configuration where several WAC155 transmitters share the single RS-485 communication line, the termination jumper is in ON position only at the physically farthest transmitter (i.e.
RS-485 termination jumper Status indicator LED Connections The WAC155 transmitter provides the line cable entry through a gland for a cable with a diameter from 7 to 10 mm. For better protection against RF interference, bend the cable shield as illustrated in...
User's Guide ______________________________________________________________________ 0702-008 Figure 7 I/O Connectors The following numbers refer to Figure 7 on page X1 = Plug-in connector with screw terminals (5 pcs) for the anemometer cable. Maximum wire cross section area is 1.5 X2 = Plug-in connector with screw terminals (8 pcs) for the power and signal cable.
The transmitter connects to the wind sensors with the cross-arm's standard cables through two cable glands. Through these cables the WAC155 transmitter both feeds the sensor power and receives the wind data. Plug-in type screw terminal connectors are provided both for the sensor cables and the output line cable.
Glands for power and signal cables Wind vane cable Signal Output The WAC155 transmitter provides a half-duplex RS-485 serial bus connection. Wind data is provided in standard NMEA messages. In addition, a service connection is available for configuration and status information.
0-9. Typically, only a 4-wire shielded cable is required for the line between the WAC155 transmitter and the receiving end. Two of the four wires provide the operating power for the system. A twisted pair can be used for the power wires to reduce interference.
User's Guide ______________________________________________________________________ Optional Heating Power The WAC155 transmitter also provides the sensors with a throughput for heating power, which can be connected if sensor heating is required. The heating power is galvanically isolated from the operating power. The heating power connection requires an extra pair of wires. Since the...
When a 20 V power supply is used, the heating power can also be connected to a single sensor. Refer to Figure 12 on page 23 Figure 13 on page 0702-020 Figure 12 Heating Power Connection for Anemometer Only VAISALA _______________________________________________________________________ 23...
Figure 16 on page 27 illustrates the wiring with the WHP25 Mains Power Supply and the WA252 series wind sensors. The WAC155 operating power is supplied from the WAA252 (+12Vout, F -> X2/3). Thus no external operating voltage shall be applied to the connector X2.
Chapter 3 _______________________________________________________________ Installation 0702-006 Figure 16 Wiring with WHP25 Mains Power Supply and the WA252 Series Wind Sensors VAISALA _______________________________________________________________________ 27...
The arrow on the cover of the junction box must point to north. 0206-059 Figure 17 Mounting WAC155 to the Top of a Pole Mast NOTE A long cable between different units (sensors, transmitters, power supplies, and displays) can cause a lethal surge voltage if a lightning strikes in the vicinity.
WAV151 end of the cross arm is pointing to north with the required accuracy, see Figure 17 on page 28. To ensure a correct assembly after aligning the WAC155, you can mount the sensors on it only in one way. VAISALA _______________________________________________________________________ 29...
Howerver, if the problem is with the operating power, the service connection may not be available even if the LED is flashing. If the signal cable from the WAC155 transmitter is connected to a data collection system and the system is powered up, check that the wind readings react correctly.
Serial Wind Transmitter WAC155. User Interface The WAC155 does not provide a direct user interface, except for a status indicator LED on the component board. The LED will flash green when the operational status is OK, and red when there is an error condition.
Asterisk, indicating that the next field is the checksum <CS> Two character checksum for the message The comma "," is used as a separator between the fields. Here are some examples of MWV messages output by the WAC155: 32 ___________________________________________________________________M210822EN-A...
MWV message containing the wind data. However, if you have not defined any messages of the type using the SETMES mwvmessage command, the transmitter will not respond. Example polling command for transmitter with device ID "A": $WIPAQ,*72 VAISALA _______________________________________________________________________ 33...
Display the current heating status SERVICE TIMEOUT Configure timeout for service connection GETSET Display the current settings of the device ERRS Display the current error status INIE Reset the transmitter to factory default settings RESET Reset the transmitter to new settings VAISALA _______________________________________________________________________ 35...
User's Guide ______________________________________________________________________ The sections below contain a description of each command. The meaning of the command line elements is presented in the table below. Table 7 Meaning of the Command Line Elements Element Meaning Text Style Used SAMPLE Specifies the name of UPPER CASE BOLD the command or utility.
Once the service connection is closed, the transmitter will return into the operation state it had prior to opening the connection, either auto-transmitting or polling mode. Example: >open Vaisala Serial Wind Transmitter WAC155 SW version 2.0.7 Service connection opened > CLOSE The CLOSE command closes all current service connections.
User's Guide ______________________________________________________________________ SETDEV The SETDEV command sets the device ID of the transmitter. In a multi-transmitter network, the device ID of each transmitter must be unique. SETDEV id <value><cr> where value = Specifies the new device ID for the transmitter. The ID may contain up to 5 characters, including A-Z, a- z, and 0-9.
Three message types are supported: NONE (no message) MWV (standard wind speed and direction message) MWVQUERY (Vaisala extension to MWV message) SETMES {messagenumber} [type] [interval] <value><cr> where messagenumber = The number of the message to configure. Range 0 ...
User's Guide ______________________________________________________________________ SETHEA The SETHEA command configures the wind sensor heating control. Sensor heating is provided to prevent frost in sensor bearings. Heaters are powered by an external power supply, which is not the same as the sensor system power supply. Heating is not enabled by default. If necessary, heating can also be forced.
Temperature 14.25 > SETALR The WAC155 can monitor the wind sensor movement to detect if the sensors appear to be stuck in place. The SETALR command is used to configure this functionality. If the functionality is enabled and timeouts are not zero, sensors are cross-checked for changes, i.e.
User's Guide ______________________________________________________________________ Typical commands: SETALR ACTIVE 1 (activate the alarm functionality) SETALR DIR 60 (alarm if wind vane stuck for 60 seconds) SETALR SPD 60 (alarm if anemometer stuck for 60 seconds) SETALR CALM 1440 (alarm if both sensors stuck for 1440 minutes) Example: >setalr active 1 ACTIVE= 1...
GETSET command , and record the output. After using this command, you have to use the RESET command to take the factory defaults into use, and re-open the service connection with the OPEN command. INIE <cr> VAISALA _______________________________________________________________________ 45...
User's Guide ______________________________________________________________________ Example: >inie FACTORY DEFAULTS > RESET The RESET command resets the transmitter, and takes any new configuration settings into use. After using this command, you have to re-open the service connection with the OPEN command. RESET <cr> Example: >RESET Wait 5 seconds delay...
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= Implements an error mask. value = The value for the error mask in hexadecimal format (default 0010). Example: >errs Active errors: ERROR 5: Heating control broken or heating power missing ERRS = 0020 MASK = 0010 > VAISALA _______________________________________________________________________ 47...
Chapter 5 ______________________________________________________________ Maintenance CHAPTER 5 MAINTENANCE This chapter provides information that is needed in basic maintenance of the Vaisala Serial Wind Transmitter WAC155. Periodic Maintenance Visual Checking Check every 1 to 2 years that the component board is not corroded.
Check wiring and tighten the not working. properly. screw terminals. Heating is not enabled in the Check and correct using the transmitter settings. service connection. Power failure of the heating Check that the power supply is power supply. online. VAISALA _______________________________________________________________________ 51...
User's Guide ______________________________________________________________________ Error Messages The table below describes the error codes defined in the WAC155. If you use the ERRS command to specify an error mask, use the hexadecimal values that are provided in the table. For help in using the...
Include the information specified in step 2 in the box with the faulty product. Also include a detailed return address. Ship the box to the address specified by your Vaisala contact. VAISALA _______________________________________________________________________ 53...
User's Guide ______________________________________________________________________ Vaisala Service Centers Vaisala Service Centers perform calibrations and adjustments as well as repair and spare part services. See contact information below. Vaisala Service Centers also offer accredited calibrations, maintenance contracts, and a calibration reminder program. Do not hesitate to contact them to get further information.
Chapter 7 ____________________________________________________________ Technical Data CHAPTER 7 TECHNICAL DATA This chapter provides technical data of the Vaisala Serial Wind Transmitter WAC155. Specifications Table 11 Performance Property Description/Value Equipment type Digital-to-RS-485 serial bus converter for Vaisala wind sensors Full scale: for direction 0 ...
User's Guide ______________________________________________________________________ Table 12 Inputs and Outputs Property Description/Value Signal input: wind direction 6-bit parallel GRAY code wind speed Pulse frequency 0 ... 750 Hz Input operating power 9 ... 15.5 VDC, 8 mA typical incl. sensors (when power-save mode is enabled) Maximum operating power 50 mA (when power-save mode is disabled) Input heating power 16 ...