Installation, Calibration – Young Wind Monitor Model 05103 User Manual

Page 2

05103-90(K)

INSTALLATION

Proper placement of the instrument is very important. Eddies from

trees, buildings, or other structures can greatly influence wind

speed and wind direction observations. To get meaningful data

for most applications locate the instrument well above or upwind

from obstructions. As a general rule, the air flow around a structure

is disturbed to twice the height of the structure upwind, six times

the height downwind, and up to twice the height of the structure

above ground. For some applications it may not be practical or

necessary to meet these requirements.

FAILURE TO PROPERLY GROUND THE WIND MONITOR

MAY RESULT IN ERRONEOUS SIGNALS

OR TRANSDUCER DAMAGE.

Grounding the Wind Monitor is vitally important. Without proper

grounding, static electrical charge can build up during certain

atmospheric conditions and discharge through the transducers.

This discharge can cause erroneous signals or transducer failure.

To direct the discharge away from the transducers, the mounting

post assembly is made with a special antistatic plastic. It is very

important that the mounting post be connected to a good earth

ground. There are two ways this may be accomplished. First,

the Wind Monitor may be mounted on a metal pipe which is

connected to earth ground. The mounting pipe should not be

painted where the Wind Monitor is mounted. Towers or masts

set in concrete should be connected to one or more grounding

rods. If it is difficult to ground the mounting post in this manner,

the following method should be used. Inside the junction box

the terminal labeled EARTH GND is internally connected to the

antistatic mounting post. This terminal should be connected to

an earth ground (Refer to wiring diagram).

Initial installation is most easily done with two people; one to adjust

the instrument position and the other to observe the indicating

device. After initial installation, the instrument can be removed

and returned to its mounting without realigning the vane since

the orientation ring preserves the wind direction reference. Install

the Wind Monitor following these steps:

1. MOUNT WIND MONITOR

a) Place orientation ring on mounting post. Do Not tighten

band clamp yet.

b) Place Wind Monitor on mounting post. Do Not tighten

band clamp yet.

2. CONNECT SENSOR CABLE

a) Refer to wiring diagram located at back of manual.

3. ALIGN VANE

a) Connect instrument to an indicator.

b) Choose a known wind direction reference point on the

horizon.

c) Sighting down instrument centerline, point nose cone at

reference point on horizon.

d) While holding vane in position, slowly turn base until

indicator shows proper value.

e) Tighten mounting post band clamp.

f) Engage orientation ring indexing pin in notch at

instrument base.

g) Tighten orientation ring band clamp.

CALIBRATION

The Wind Monitor is fully calibrated before shipment and should

require no adjustments. Recalibration may be necessary after

some maintenance operations. Periodic calibration checks are

desirable and may be necessary where the instrument is used in

programs which require auditing of sensor performance.

Accurate wind direction calibration requires a Model 18112 Vane

Angle Bench Stand. Begin by connecting the instrument to a

signal conditioning circuit which has some method of indicating

wind direction value. This may be a display which shows wind

direction values in angular degrees or simply a voltmeter

monitoring the output. Orient the base so the junction box faces

due south. Visually align the vane with the crossmarkings and

observe the indicator output. If the vane position and indicator

do not agree within 5°, adjust the potentiometer coupling inside

the main housing. Details for making this adjustment appear

in the MAINTENANCE, POTENTIOMETER REPLACEMENT,

outline, step 7.

It is important to note that, while the sensor mechanically rotates

through 360°, the full scale wind direction signal from the signal

conditioning occurs at 355°. The signal conditioning electronics

must be adjusted accordingly. For example, in a circuit where 0

to 1.000 VDC represents 0° to 360°, the output must be adjusted

for 0.986 VDC when the instrument is at 355°. (355°/360° X 1.000

volts = 0.986 volts)

Wind speed calibration is determined by propeller pitch and the

output characteristics of the transducer. Calibration formulas

showing wind speed vs. propeller rpm and output frequency are

included below. Standard accuracy is ± 0.3 m/s (0.6mph). For

greater accuracy, the sensor must be individually calibrated in

comparison with a wind speed standard. Contact the factory or

your supplier to schedule a NIST (National Institute of Standards

& Technology) traceable wind tunnel calibration in our facility.

To calibrate wind system electronics using a signal from the

instrument, temporarily remove the propeller and connect an

Anemometer Drive (18802 or equivalent) to the propeller shaft.

Apply the appropriate calibration formula to the calibrating motor

rpm and adjust the electronics for the proper value. For example,

with the propeller shaft turning at 3600 rpm, adjust an indicator to

display 17.6 meters per second [3600 rpm X 0.00490 (m/s)/rpm

=17.6 m/s]

Details on checking bearing torque, which affects wind speed and

direction threshold, appear in the following section.

CALIBRATION FORMULAS

Model 05103 Wind Monitor w / 08234 Propeller

WIND SPEED vs PROPELLER RPM

m/s

=

0.00490 x rpm

knots =

0.00952 x rpm

mph

=

0.01096 x rpm

km/h

=

0.01764 x rpm

WIND SPEED vs OUTPUT FREQUENCY

m/s

=

0.0980 x Hz

knots =

0.1904 x Hz

mph

=

0.2192 x Hz

km/h

=

0.3528 x Hz