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6 receiver optical alignment, 7 finalise optical alignment – Kipp&Zonen LAS MkII Scintillometer User Manual

Page 36

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36

Instruction Manual - LAS MkII Scintillometer

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2.5.3 Receiver Analogue signal connector

The receiver is provided with a 4-pin plug for analogue signal outputs, fitted to a 10 m long yellow cable that is terminated in
tinned wires.

Receiver analogue signal connector and cable

2.5.4 Receiver digital interface connector

The receiver is provided with an 8-pin waterproof plug for the digital communication interface, fitted to a 10 m long yellow cable
that is terminated in tinned wires.

Two communication modes can be selected, RS-232 or 4-wire RS-422 (default). The desired mode can be selected using the LAS MkII
configuration menu or by the control software.

Receiver digital interface connector and cable

For permanent connection to a computer always use optically or galvanicly isolated adapters or converters at the

computer serial port to protect against damage caused by lighting.

2.9 Installation and optical alignment

The alignment of the LAS MkII at the measurement site is an iterative process for establishing the optimum signal strength for
horizontal line-of-sight transmission. The different steps are summarized below. We recommend practicing the alignment
procedure at a short range (~ 250 m) before installation at longer distances.

The transmitter and receiver can be rotated around both vertical and horizontal axes. The coarse horizontal alignment (pan) can
be done by rotating the transmitter and receiver before the bolt(s) fixing the baseplate to the supporting structure is (are)
tightened. Fine pan adjustment is done with the two horizontal adjustment screws. For the vertical alignment (tilt) two vertical
adjustment screws are provided, one at the front and one at the rear.

2.9.1 Preparation for installation

Two people should carry out the alignment, one at the receiver and one at the transmitter. They must be able to communicate
either by radio, walkie-talkies or mobile telephones.

Note

The final alignment should be carried out under conditions of clear or very clear visibility, i.e. visibility > 10 km.

The table below shows the typical variation in receiver signal strength over a path length of 3000 m for a nominal transmitter
power and receiver signal gain setting.

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2.5.5 Receiver meteorological sensor kit connector

The 8-pin connector marked ‘Sensors’ must only be used with the accessory meteorological sensor kit. The 12 VDC

output must not be used to supply other equipment.

Receiver meteorological sensor kit connector

The accessory meteorological sensor kit is supplied pre-wired with a 10 meter long yellow cable and waterproof connector and
will be automatically powered and recognised when plugged into the LAS MkII receiver.

Do not connect a computer to the sensor connector using the digital interface plug and cable. The 12 V power

output for the sensors may damage the computer serial port.

2.6 Aperture restrictors for short range applications

In case the LAS MkII is required to operate over short distances the aperture diameter of the transmitter and receiver can be
reduced to 100 mm using the supplied restrictors. The LAS MkII can then be used over path lengths from 100 m to 1 km.

To fit the restrictors proceed as follows and shown in the diagram below:

1. Remove 3 of the 6 retaining screws of the transmitter and receiver windows
2. Replace the screws by the nylon spacers
3. Secure the restrictors using the M4 x 25 mm cap-head screws and nylon washers

When using the restrictors, remember to set the aperture values in the LAS MkII configuration menu to 100 mm.

As the beam diameter becomes smaller so does the beam divergence. This means that the alignment of the 100 mm

LAS MkII may be more critical than for the full-beam 150 mm LAS MkII. It is recommended to use very stable

mounting constructions.

2.7 Using the display and key-pad

The waterproof display and menu navigation keys located on the rear panel of the LAS MkII receiver allow for complete instru-
ment configuration and control without the need for additional computers, cables and software. This section describes the basic
procedure for navigating through the menus, changing and confirming settings.

Note

The complete menu structure of the LAS MkII scintillometer can be found in Appendix C.

Navigating through the LAS MkII menu structure is very straight-forward using the keys.

The keys are used to scroll through the (sub-) menus or to select or enter a value:

Scroll mode:

Up key

Select next menu item

Down key

Select previous menu item

Left key

Go one menu level back

Right key

Select displayed menu item

Edit mode

Up key

Increment digit

Down key

Decrement digit

Left key

Select previous digit

Right key

Select next digit

Confirm (edit mode)

Display shows

Confirm Entry - Yes

Up or down key

Cycles through options; Yes, No, Quit

Right key

Completes selected action:

Yes - confirm changes and go back to menu

No - cancel and go back to edit mode

Quit - exit edit mode without changes

.

For example to change the path length setting from 110.0 m to 1250.0 m the following actions need to be performed:

In order to keep this manual as concise as possible, this process will be shortened in the following way:

Main Menu → 2. Configuration 1. Installation 2. Path length 1250.0 m Confirm

Note

To reduce power consumption and increase life-time, the receiver display is turned off if no keys are pressed for

4 minutes. Pressing any key turns the display on again.

2.8 Configuration for measurement

The table below shows the sub-menus contained within Menu 2, Configuration. These sub-menus require setting up before, or
during, installation. To configure the LAS MKII receiver before installation refer to the ‘power up receiver’ section 2.9.4.

Note

The complete menu structure of the LAS MkII scintillometer can be found in Appendix C.

Note

The Sensor sub-menu default values are used when the meteorological sensor kit is not connected. These values

can be changed by the user, within the ranges shown.

Note

If a BaudRate is entered different to those listed, the receiver will select the nearest valid value.

Valid interface types are 232 and 422, if another number is entered the port will switch off.

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2.8.1 Setting parameters to measure C

n

2

C

n

2

is measured using the following general algorithm:

Where; D is the aperture diameter of the LAS MkII, L is the distance between the transmitter and the receiver (the path length)
and σ

lnI

2

the measured variance of the natural logarithm of intensity fluctuations.

The parameters for aperture and path length must be set in the receiver.

Note

Set the Aperture to the value stated on the Test and Final Inspection Certificate supplied with the instrument. The

typical setting is 149 mm.

2.8.2 Setting parameters to measure sensible heat flux

From C

n

2

data, together with wind speed, temperature, and an estimate of the topology and the displacement height; the surface

sensible heat flux (H) can be determined from by solving equations iteratively. See Appendix C for further information.

In addition to the parameters for measurement of C

n

2

the following additional parameters are required to measure surface sensi-

ble heat flux (H):

• Installation height
• Zero Displacement Height
• Bowen Ratio
• Temperature
• Pressure from meteorological sensor kit when connected
• Wind Speed
• Roughness Length

The surface sensible heat flux (H) can be calculated by a computer using the supplied EVATION software package, the data from
the LAS MkII and meteorological sensor kit and by inputting other parameters, such as the roughness length.

However, for most day-time (unstable) conditions and when the LAS MkII is installed relatively high above the surface (z

LAS MkII

> 20 m) the contribution of the friction velocity is relatively small. For these conditions the free convection method can be
applied.

Note that the free convection sensible heat flux (H

free

) calculated by this method is not as accurate as the standard method for H

because it does not allow for surface topography (roughness length, etc.).
See Appendix C for further information.

When the meteorological sensor kit is connected the LAS MkII can internally calculate and log the free convection sensible heat
flux (H

free

).

2.8.3 External sensors

When the meteorological sensor kit is connected the correct factory sensitivities and ranges are automatically selected.

When the kit is not connected, fixed values typical of the measurement location can be entered in sub-menu 3 of the configuration menu.

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2.8.4 Data Logger

Configure the following data logger settings; date, time, sleep time, wakeup time, log-interval and send interval.

The wakeup time defines the start of the operational mode. When the operational mode is active the LAS is measuring and
logging data; the receiver heater is turned on when the temperature of the receiver is below the ‘operating temperature’ in the
heater menu.

The sleep time defines the start of the low power ‘sleep’ mode, during which there is no measurement and the receiver heater is
turned on only when the temperature of the receiver is below the ‘standby temperature’ in the heater menu.

The log interval defines the interval over which measurements will be averaged and then stored in the internal flash data memory.

The send interval defines the interval at which the current data values will be sent automatically to a computer.

2.8.5 Interface

Configure the following interface settings; baud rate, parity, data bits and interface type.

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2.9.2 Installing the transmitter and receiver

1. Install the transmitter and receiver of the LAS MkII at their selected positions.
2. The bolts used to fix the baseplates to the tripods or other supporting structures are fastened by hand, so that the transmitter
and receiver can still be turned around their vertical axes.
3. Clamp the telescopes to the rails on the tops of the transmitter and receiver using the 4 mm hexagonal Allen keys. Note that
the telescopes are factory-aligned for each transmitter and receiver and are marked appropriately with either ‘Transmitter’
or ‘Receiver’.
4. Adjust the transmitter both horizontally (pan) and vertically (tilt) such that the crosshairs of the telescope are centred on the
receiver window. Tighten the bolt(s) fixing the baseplate to the supporting structures (further adjustments can be done with
the pan fine adjustment screws).
5. Carry out the same procedure for the receiver relative to the transmitter.

2.9.3 Power up transmitter

1. Connect a suitable 12 VDC power supply to the transmitter and switch on the power. The red power indicator on the transmitter
rear panel will illuminate.
2. Unscrew the cover of the power adjustment knob and initially set the 10-turn dial (scaled from 0 to 1000) to maximum.

2.9.4 Power up receiver

1. Connect a suitable 12 VDC power supply to the receiver and switch on the power. The green power and status indicator on the
rear panel provides information on the operation of the LAS MkII receiver, as in the following table.

2. The display on the rear panel of the receiver will cycle through the following start-up messages (examples are shown):
• The serial number and production document


• The software release and hardware release


• The communication parameters (interface type, baud rate, data bits, parity)


• The successful start-up message


Or ‘Check 12V Heater’ (this is only a warning that the heater is not set, it is not an error)

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If a hardware error message occurs, try turning off the power and the restarting the receiver. If the error persists,

make a note of the code and contact

[email protected]

3. A configuration error message will be displayed if one or more of the configuration parameters stored in the memory are not
correct. The following configuration error messages are defined:













Note

More detailed information about configuration errors and how to clear them is given in Appendix D.

1. At the receiver ensure that the LAS MKII is configured as described in section 2.8, in particular the path length, installation
height and aperture (100 mm or 149 mm).
2. At the receiver set the signal gain using the navigation keys as follows:

Main Menu → 2. Configuration 1. Installation 6. Signal Gain

Initially set the signal gain to 1 (this is the default value).
3. Return to the main menu and select

Main Menu → 1. View RealTime 1. Signal Level

2.9.5 Transmitter optical alignment

Note

It is very important to follow this procedure carefully because the data is not reliable when the edges of the beam

are to close to the receiver or transmitter aperture.

1. The person at the receiver observes the signal level and communicates the values to the person at the transmitter.
2. The person at the transmitter first slowly turns the transmitter horizontally (pan) left and right using the adjustment screws
until the maximum signal strength (as given by the person at the receiver) is reached.
3. There should be a ‘plateau’ region of approximately the same signal strength between the horizontal edges of beam. Find the
mid-point of this region, which will be the centre of the beam.
4. The transmitter then needs to be slowly adjusted vertically (tilt) up and down using the adjustment screws to find the mid-point
maximum signal strength, as in step 3.
5. The concept of the maximum signal ‘plateau is shown in the figure on the next page.
6. If the receiver signal strength is more than 200 % reduce the transmitter power for a reading of about 100 %. Optimise the
horizontal and vertical alignment for the maximum signal strength in the middle of the ‘plateau’ region. Each time the signal
strength is more than 200 % reduce the transmitter power for a reading of about 100 %.

.

7. Repeat steps 2 to 8 until the best transmitter optical alignment is achieved.
8. Tighten the transmitter adjustment screws, checking that the signal strength has not changed.

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2.9.6 Receiver optical alignment

Note

It is very important to follow this procedure carefully because the data is not reliable when the edges of the beam

are too close to the receiver or transmitter aperture.

1. The person at the receiver observes the signal level and optimises the alignment.
2. First slowly turn the receiver horizontally (pan) left and right using the adjustment screws until the maximum signal strength
is reached.
3. As for the transmitter, there should be a ‘plateau’ region of approximately the same signal strength between the horizontal
edges of beam. Find the mid-point of this region, which will be the centre of the beam.
4. The receiver then needs to be slowly adjusted vertically (tilt) up and down using the adjustment screws to find the mid-point
maximum signal strength, as in step 3.
5. If the receiver signal strength is more than 200 % reduce the transmitter power for a reading of about 100 %. Optimise the
horizontal and vertical alignment for the maximum signal strength in the middle of the ‘plateau’ region. Each time the signal
strength is more than 200 % reduce the transmitter power for a reading of about 100 %.
6. Repeat steps 2 to 5 until the best receiver optical alignment is achieved.
7. Tighten the receiver adjustment screws, checking that the signal strength has not changed.

2.9.7 Finalise optical alignment

1. Adjust the transmitter power to give signal strength of 100 - 120 % and lock the knob with the small black tab. Make a note
of the dial setting for future reference.

Note

It is possible that at path lengths of 3000 m or greater, and depending upon the visibility, a signal strength of

100

- 120 % is not achievable. The LAS MKII will operate correctly with signal strength of 25% or more. Do not increase

the receiver signal gain, as this also increases the noise and overall measurement performance is not improved.

.

2. Screw on the cover of the power adjustment knob. Hand-tighten only to avoid damaging the o-ring seal.
3. The optical alignment is now complete. Go back to the View RealTime menu and sub-menu 3 (C

n

2

). The LAS MkII should now

be measuring and logging data according to the configuration set in section 2.8.

.

Note

It is possible that the transmitter or receiver is not now aligned with the centre of the crosshairs of its telescope.

This is due to a difference between the operating path length and the range at which the telescopes were adjusted

at the factory. Therefore never rely only on the telescopes during the alignment procedure! If desired, the crosshairs

of the telescopes can be adjusted using the instructions provided with them.

4. The telescopes can now be removed and the sun shields fitted to the transmitter and receiver with the fixing screws and the
3 mm hexagonal Allen keys. Store the telescopes carefully for future use.

Never (re-)align the LAS MkII transmitter and receiver using the telescopes only and do not swap the transmitter

and receiver telescopes. Always use the optical alignment procedure.

To avoid non-linearity of the detector and overload of the electronics, the signal strength is limited to a maximum

of 250 %. Above this the over-range value of 999 % is shown.

Beam width

Center beam

Signal level [mV]

0

Left

Right

> UDEMOD

* 4

0000.0 mV