Young Wind Monitor Model 05103L User Manual

Page 2

05103L-90(H)

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 05103L Wind Monitor is fully calibrated before shipment and

requires no additional adjustment. Check sensor calibration once

per year or as needed. Please see the wiring diagram for output

scaling information.

Calibration checks can be easily performed in the field using the

calibration accessories available from YOUNG. NIST traceable

wind tunnel calibration is also available. Contact YOUNG for

details.

Details on checking bearing torque, which affects wind speed and

direction threshold, appear in the following section.

CALIBRATION FORMULAS

Model 05103L 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

mA OUTPUT

m/s

=

( 6.250 x mA)-25

knots

=

(12.141 x mA)-48.6

mph

=

(13.980 x mA)-56

km/h

=

(22.500 x mA)-90

WIND DIRECTION vs

mA OUTPUT

DEGREES =

(22.5 x mA)-90

MAINTENANCE

Given proper care, the Wind Monitor should provide years of

service. The only components likely to need replacement due to

normal wear are the precision ball bearings and the wind direction

potentiometer. Only a qualified instrument technician should

perform the replacement. If service facilities are not available,

return the instrument to the company. Refer to the drawings to

become familiar with part names and locations. The asterisk (*)

which appears in the following outlines is a reminder that maximum

torque on all set screws is 80 oz-in.

POTENTIOMETER REPLACEMENT

The potentiometer has a life expectancy of fifty million revolutions.

As it becomes worn, the element may begin to produce noisy

signals or become non-linear. When signal noise or non-linearity

becomes unacceptable, replace the potentiometer. Refer to

exploded view drawing and proceed as follows:

1. REMOVE MAIN HOUSING

a) Unscrew nose cone from main housing. Set o-ring aside for

later use.

b) Gently push main housing latch.

c) While pushing latch, lift main housing up and remove it from

vertical shaft bearing rotor.

2. UNSOLDER TRANSDUCER WIRE

a) Remove junction box cover, exposing circuit board.

b) Remove screws holding circuit board.

c) Unsolder three potentiometer wires (white, green, black),

two wind speed coil wires (red, black), and earth ground wire

(red) from board.

3. REMOVE POTENTIOMETER

a) Loosen set screw on potentiometer coupling and remove

it from potentiometer adjust thumbwheel.

b) Loosen set screw on potentiometer adjust thumbwheel

and remove it from potentiometer shaft.

c) Loosen two set screws at base of transducer assembly

and remove assembly from vertical shaft.

d) Unscrew potentiometer housing from potentiometer

mounting & coil assembly.

e) Push potentiometer out of potentiometer mounting & coil

assembly by applying firm but gentle pressure on

potentiometer shaft. Make sure that the shaft o-ring

comes out with the potentiometer. If not, then gently

push it out from the top of the coil assembly.

4. INSTALL NEW POTENTIOMETER

a) Push new potentiometer into potentiometer mounting &

coil assembly making sure o-ring is on shaft.

b) Feed potentiometer and coil wires through hole in bottom

of potentiometer housing.

c) Screw potentiometer housing onto potentiometer

mounting & coil assembly.

d) Gently pull transducer wires through bottom of

potentiometer housing to take up any slack. Apply a

small amount of silicone sealant around hole.

e) Install transducer assembly on vertical shaft allowing

0.5 mm (0.020") clearance from vertical bearing.

Tighten set screws* at bottom of transducer assembly.

f) Place potentiometer adjust thumbwheel on potentiometer

shaft and tighten set screw*.

g) Place potentiometer coupling on potentiometer

adjust thumbwheel. Do Not tighten set screw yet.

5. RECONNECT TRANSDUCER WIRES

a) Using needle-nose pliers or a paper clip bent to form a small

hook, gently pull transducer wires through hole in junction

box.

b) Solder wires to circuit board according to wiring diagram.

Observe color code.

c) Secure circuit board in junction box using two screws

removed in step 2b. Do not overtighten.

6. REPLACE MAIN HOUSING

a) Place main housing over vertical shaft bearing rotor. Be

careful to align indexing key and channel in these two

assemblies.

b) Place main housing over vertical shaft bearing rotor until

potentiometer coupling is near top of main housing.

c) Turn potentiometer adjust thumbwheel until potentiometer

coupling is oriented to engage ridge in top of main housing.

Set screw on potentiometer coupling should be facing the

front opening.

d) With potentiometer coupling properly oriented, continue

pushing main housing onto vertical shaft bearing rotor until

main housing latch locks into position with a “click”.

7. ALIGN VANE

a) Connect excitation voltage and signal conditioning

electronics to terminal strip according to wiring diagram.

b) With mounting post held in position so junction box is facing

due south, orient vane to a known angular reference. Details

appear in CALIBRATION section.

c) Reach in through front of main housing and turn

potentiometer adjust thumbwheel until signal conditioning

system indicates proper value.

d) Tighten set screw* on potentiometer coupling.

8. REPLACE NOSE CONE

a) Screw nose cone into main housing until o-ring seal is

seated. Be certain threads are properly engaged to avoid

cross-threading.

*Max set screw torque 80 oz-in