Kanomax Anemomaster 6162 Operation Manual

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Page 1

Anemomaster

MODEL 6162

Read this operation manual carefully and understand the warnings described in

this manual before operating the product.

Keep this manual handy for future reference.

Operation Manual

02004

0410

Page 2

Important Safety Information

Types and definitions of warnings signs used in this operation manual are described as below.

[Classifications]

WARNING:

To Prevent Serious Injury or Death

Indicates a potentially hazardous situation which, if not avoided, may result in serious injury or death.

CAUTION:

To Prevent Damage to the Product

Indicates a potentially hazardous situation which, if not avoided, may result in damage to the product that may void the product warranty.

[Description of Symbols]

U indicates the condition (including danger) that requires caution. The subject of each caution is illustrated inside the triangle (e.g., the symbol shown on the left is high temperature caution).

indicates prohibition. Do not take the prohibited action shown inside or near this symbol

(e.g., the symbol on the left prohibits disassembly).

z indicates a mandatory action. A specific action is given near the symbol.

WA RN IN G

¾ Never bring the probe close to a flammable

gas atmosphere.

>>> The heated sensor may cause fire or explosion.

¾ Never disassemble, modify or repair the product.

>>> Failure to observe the above may cause short circuit and/or other failure that will affect

the performance.

¾ Carefully follow the instructions provided in this Manual.

>>>> Failure to observe the instructions may lead to electrical shock, fire or damage to the

instrument.

¾ If abnormal noise, smell or smoke is observed, or if liquid has entered the

instrument, turn off the instrument immediately, and remove the batteries or pull out the plug.

>>> There is a possibility of malfunction, electric shock, and fire.

Please contact your local distributor or our service center for repair.

Do not use near flammable gas.

Do not modify / disassemble.

Handle properly

Page 3

WAR NI N G

¾ Do not use the instrument in a water vapor atmosphere.

>>> Failure to observe above may cause electrical shock, fire, or damage to

the sensor.

¾ Never touch the sensor.

>>> The sensor is heated during operation. Touching the heated sensor may cause burns, and may also

damage the sensor itself.

CAUTION

¾ Always unplug the instrument from the electrical outlet when the instrument is

not in use.

>>> Failure to do so may cause electrical shock, fire or circuit damage.

¾ Remove the batteries from the battery compartment when storing the instrument. ¾ DO not leave exhausted batteries in the battery compartment.

>>> Failure to do so may cause battery leakage.

¾ Do not use or leave the instrument in a high

temperature / humidity environment, or in a dusty environment.

¾ Do not leave the instrument under direct sunlight

for a prolonged period.

>>> The instrument may not function properly out of the

specified operating conditions.

¾ Do not wipe the instrument with a volatile solvent.

>>> The body may deform or deteriorate. Use soft dry cloth to remove stains. If stains

persist, soak the cloth in a neutral detergent and wipe the instrument with the soft cloth. Never use volatile solvents such as thinner or benzine.

¾ Do not apply strong shock or place / drop anything heavy on

the instrument.

>>> Failure to observe the above may cause damage or

malfunction to the instrument.

¾ Do not touch the sensor when the sensor is charged.

>>> Failure to observe the above may affect the measurement value or cause the circuit

failure.

Prohibition

High Temperature

Warn in

Handle carefully

Prohibited

Installation

Prohibition

Page 4

Page 5

Table of Contents

1. Getting Started..................................................................................................................................................... 1

1.1 Part Names and Functions (1) ····· Main Unit.............................................................................................. 1

1.2 Part Names and Functions (2) ····· Probe ..................................................................................................... 3

1.3 Sheet Key Description ................................................................................................................................... 4

1.4 Power Source.................................................................................................................................................. 5

1.4.1 Battery Replacement .............................................................................................................................. 5

1.4.2 AC Adapter.............................................................................................................................................. 5

1.5 Getting Ready for Measurement.................................................................................................................. 6

1.5.1 Connecting a Probe Cable...................................................................................................................... 6

1.5.2 Checking the Probe Number ................................................................................................................. 6

1.5.3 To Attach and Detach the Probe Board ................................................................................................ 6

1.5.4 Display Screen – Monitor Screen .......................................................................................................... 7

2. Basic Operation.................................................................................................................................................... 8

2.1 How to Hold Reading .................................................................................................................................... 8

2.2 How to Make the Reading More Readable.................................................................................................. 9

2.3 How to Display Fluctuation Graph ............................................................................................................ 10

2.4 Remaining Battery Level ............................................................................................................................ 11

2.4.1 Battery Level Indicator ........................................................................................................................ 11

2.5 How to Change Data and Time................................................................................................................... 12

2.6 Printing Hard Copy of the Monitor Screen............................................................................................... 13

2.6.1 What you need....................................................................................................................................... 13

2.6.2 Printer Setting....................................................................................................................................... 13

2.6.3 Signal Cable Connection ...................................................................................................................... 13

2.6.4 Operation Procedure............................................................................................................................ 13

3. Measurement Mode........................................................................................................................................... 14

3.1 How to Measure Average, Max and Min value [Average Mode] ............................................................. 14

3.2 How to Collect Data at Certain Time Intervals [Interval Mode] ............................................................ 16

3.3 How to Measure Flow Rate in the Duct [Flow Rate Mode] ..................................................................... 18

3.4 Program Set.................................................................................................................................................. 20

3.4.1 How to Pre-set Measurement Mode.................................................................................................... 20

3.4.2 Other Calculation Mode Cannot be Used........................................................................................... 21

3.4.3 How to Deactivate Pre-set Measurement Mode ................................................................................. 21

3.5 Memory Capacity ........................................................................................................................................ 22

3.5.1 “Memory Over” Display ...................................................................................................................... 23

3.6 Printing Example – Automatic Printing and Hardcopy of Calculation Result...................................... 24

3.6.1 Automatic Printing Example ............................................................................................................... 24

3.6.2 Hardcopy Example ............................................................................................................................... 24

Page 6

4. How to Redisplay, Print and Delete Stored Data ............................................................................................ 25

4.1 How to Redisplay Data ................................................................................................................................ 25

4.2 How to Output Data to Printer................................................................................................................... 26

4.2.1 Procedure for outputting data to a printer......................................................................................... 26

4.3 Deleting Memory Data ................................................................................................................................ 28

4.3.1 Deleting All ............................................................................................................................................ 28

4.3.2 Deleting Selected Pages Only............................................................................................................... 29

5. Data Output........................................................................................................................................................ 30

5.1 Analog Output.............................................................................................................................................. 30

5.1.1 How to Change Air Velocity Range ..................................................................................................... 30

5.2 Digital Output (RS-232C) ........................................................................................................................... 32

5.2.1 Connection Example............................................................................................................................. 32

5.2.2 Baud Rate Setting ................................................................................................................................. 32

5.2.3 To Transfer Raw Data (measurement data per second) .................................................................... 33

5.2.4 To Transfer Memory Data (Measurement Data Stored in Memory)................................................ 34

6. Main Specification ............................................................................................................................................. 36

7. Measurement Principle ..................................................................................................................................... 38

7.1 Principle of Hot-Wire Anemometer ........................................................................................................... 38

7.2 Temperature Compensation........................................................................................................................ 39

7.3 Influence by Gas Composition to be Measured......................................................................................... 40

8. Troubleshooting ................................................................................................................................................. 42

8.1 Checking Power Source............................................................................................................................... 42

8.2 Checking the Initial Operation................................................................................................................... 42

8.3 During a Measurement................................................................................................................................ 43

8.4 Analog Output.............................................................................................................................................. 43

8.5 Digital Output .............................................................................................................................................. 43

8.6 Printer........................................................................................................................................................... 43

9. Warranty and After-sales Service..................................................................................................................... 44

10. Contact Information........................................................................................................................................ 46

Page 7

1. Getting Started

1.1 Part Names and Functions (1) ····· Main Unit

Unit: mm

[Front]

[Bottom]

220

Operation

Sheet Key Pad

Display

Graphic LCD

"P6

Probe Board Storing Area

"P5

Battery Compartment

Sizes C Batteries ··· 6 pcs

148

Page 8

1. Getting Started

[Right Side]

[Left Side]

"P6

Probe Connection

Use the provided adapter. When the AC adapter is connected, it will have a priority.

"P5

Air velocity and temperature are output simultaneously."P30 Output Voltage: DC0 ~ 1V The output range can be changed from the menu.

Analog Output

Turn this ON to make the LCD screen be backlit so that you can see the screen clearer even in a dark place. * Turn the backlight on only at the time of need

in order to prevent battery drain.

Backlight Switch

Turn the volume to the right and left to change the brightness of the display. Adjust the volume to make the displayed letters easily viewable.

Brightness Adjustment Volume

RS-232C (serial output) To output raw data or memory data to a computer or printer "P13, 32

Digital Output Terminal

Use this to use the remote control function It responds to START/STOP key and HOLD key in the operation area. This can be used to start/stop a measurement or hold the screen.

Remote Terminal

AC Adapter Jack

Page 9

1. Getting Started

1.2 Part Names and Functions (2) ····· Probe

[Probe for Medium Temperature] --- MODEL 0203

[Probe for High Temperature] --- MODEL 0204

Page 10

1. Getting Started

1.3 Sheet Key Description

POWER

Turn ON/OFF the power.

HOLD

Hold the reading and release to hold the reading.

PRINT After holding the display screen, press PRINT key to output the hardcopy of the displayed

screen via external printer.

FAST/SLOW

The instrument can be switched into FAST, SLOW1 or SLOW 2.

BATT

To display the remaining battery level

This function is available only when batteries are used.

Select each function. There are following functions in this menu.

START/STOP

Start/Stop a measurement

△, ▽ Initial Screen: ▽ key: Press it to display variation graph for air velocity and press it

again to switch the range.

(There are 6 ranges; 50, 25, 10, 5, 2, 1 m/s.)

△ key: Use this key to go back to the original screen.

Menu Screen: Use △, ▽ keys to select the function and item as well as to set numeric

value.

SET

Use this key to execute the selected item.

FAS T：

To display the instantaneous value every 1 sec

SLOW1：

To display moving average deviations for 5 seconds

SLOW2：

To display moving average deviations for 10 seconds

* This feature cannot be used in the calculation measurement function.

< UTILITY >

1. CALENDAR

2. ANALOG OUTPUT

3. PROGRAM SET

4. RS-232C

< MENU >

1.MONITOR

2.MEASUREMENT

3.DATA OUTPUT

4.MEMORY CLEAR

5.UTILITY

Baud rate (communication speed) setting

To delete memory data

Change to the monitoring screen.

Measurement mode (average, interval, flow rate)

To output memory data (display screen, printer, RS-232C)

Date setting

Measurement mode setting

Analog output range switching

Page 11

1. Getting Started

1.4 Power Source

1.4.1 Battery Replacement

<<CAUTION>>

Make sure the polarity is right.

Install the batteries by observing the polarity. If not, it may cause malfunction due to short-circuit or

heatup.

Install the batteries properly following the directions indicated on the bottom of the battery compartment.

1.4.2 AC Adapter

When the AC adapter is connected, it has a priority. It does not cause any problems

even if the batteries are still installed. However, if you do not use the instrument for a

prolonged time, remove the batteries. Otherwise, it may cause the contact failure due

to the battery corrosion.

<<CAUTION>>

Use our designated AC adapter.

Other AC adapters on the market place may have different polarity.

=> It may cause short circuit or fire.

MODEL 6000-05

INPUT: 100-240VAC 50-60Hz OUTPUT: 9VDC 660mA

Connector

AC Adapter

* Insert the middle batteries at last after placing the

batteries at the both sides. Make sure to place the tape under the battery as shown in the above picture.

3. How to Install Batteries

1. How to Open the Battery Cover

Push the click up towards the arrow direction to remove the lid.

2. How to Remove the Batteries

Pull the tape up.

Page 12

1. Getting Started

1.5 Getting Ready for Measurement

1.5.1 Connecting a Probe

Probe is calibrated together with the provided connection cable.

Please make sure the connection cable is connected when

performing a measurement.

* To change the length of a connection cable, recalibration

will be required.

1.5.2 Checking the Probe Number

Confirm that the number indicated on the one end of the probe

cable (Teflon cable) is consistent with the one indicated on the

screen of the instrument.

<<CAUTION>>

The probe number needs to be checked when multiple probes are purchased or the same probe is to be

used with multiple Anemomasters or a spare probe is used.

>>> Calibration data of the probe is written on characteristic ROM installed on the bottom of the

instrument. Please check the probe number because each probe has different characteristic.

1.5.3 To Attach and Detach the Probe Board

(2) Loosen up the screw.

>>> The screw will not come out.

(3) Pull it up vertically.

As the board is connected to the connector, do not twist it or pull only one side.

>>> It may cause the connection failure.

(1) Open the bottom lid.

aaaaaaaaaa

Connection Cable (heat-resistant: 80 °C)

Probe Cable heat-resistant: 200°C

Probe Number

’08.07.15

10:26:40

PROBE

46-H001

* This screen will be displayed when the

instrument is turned ON without the

robe connected to the instrument.

Probe Number Are they consistent with each other?

Inside the bottom lid

Page 13

1. Getting Started

1.5.4 Display Screen – Monitor Screen

When the display does not change to the monitoring screen

Symptom Solution

PROBE display remains.

Probe is not connected.

Ö Turn the power OFF. Then after connecting the

probe, turn the power ON again.

The responsiveness of

reading is bad.

Isn’t SLOW1 or SLOW2 (displaying moving average deviations) displayed on the upper right corner of the screen?

Ö Press FAST/SLOW key to switch to FAST.

Date and time are not

displayed.

Calculation program is set.

Ö Press MENU key to select 1.MONITOR

’08.07.15 FAST

10:26:40

12.8 m/s

27.5 ℃

Power ON

This will be displayed for 2 sec.

Date ····· Year. Month. Date

Time(24-hour display) ····· Hour:Min:Sec

 Start measuring when this

screen is displayed.

When probe is not connected ) P6

Use FAST/SLOW key ) P9

* 3 options: FAST、SLOW、SLOW2

FAST: instantaneous value every second SLOW1: moving average deviations for 5 seconds. SLOW2: moving average deviations for 10 seconds.

* To change the date and time ) P12

Simultaneous display

Air velocity

Air temp.

’08.07.15 FAST

10:26:40

PROBE

40-0001

VER. 1.0

KANOMAX

ANEMOMASTER

< AVE > ready T: 00/10 M:015 N: 000/010 P:007

12.8 m/s

27.5 ℃

’08.07.15

10:26:40

PROBE

40-0001

’08.07.15 SLOW1

10:26:40

12.8 m/s

27.5 ℃

Page 14

2. Basic Operation

2.1 How to Hold Reading

Display key Procedure

HOLD

Press HOLD key.

★ hold will be displayed on the upper left

of the screen indicating that the reading is on hold.

HOLD

Press HOLD key again to release the hold function.

 When a printer is connected, press PRINT key to print out the reading while the reading is on hold.

For more details please refer to page 13.

’08.07.01 FAST

hold 10:26:40

5.38 m/s

25.7 °C

When the reading is hold.

’08.07.01 FAST

hold 10:26:40

5.38 m/s

25.7 °C

’08.07.01 FAST

10:26:40

5.38 m/s

25.7 °C

’08.07.01 FAST

10:26:40

5.38 m/s

25.7 °C

Side Surface

REMOTE terminal

Same function

HOLD key

Front Side

Page 15

2. Basic Operation

2.2 How to Make the Reading More Readable

 This function is useful when you want to obtain averaged readings as readings were volatile.

* This function is not available in Average Value Measurement Mode, Intermittent Operation Measurement Mode

and Air Flow Measurement Mode.

Mode How to Take in Measurement Data Explanation

FAST

Data is taken 4 times for one second. The

average value of the 4 data is displayed as

an instantaneous value every second.

SLOW 1

The average value for 5 seconds is

displayed every second.

Data shifts by 1 second.

SLOW 2

The average value for 10 seconds is

displayed every second.

Data shifts by 1 second.

0 5 10 15 20sec (measuring time)

average for 1 sec

average for 5 sec

0 5 10 15 20sec (measuring time)

average for 10 sec

0 5 10 15 20sec (measuring time)

★ Every time you press FAST/SLOW key, the display at the

upper right corner changes in sequence.

Press FAST/SLOW key.

’08.07.01 FAST

10:26:40

15.7 m/s

24.6 ℃

FAST: Instantaneous value every second SLOW1: Moving average deviation for 5 sec SLOW2: Moving average deviation for 10 sec

FAST SLOW 1 SLOW 2

Page 16

2. Basic Operation

TIME (20S/DIV)

2.3 How to Display Fluctuation Graph

 You can monitor velocity fluctuation for 90 seconds.

(* This function cannot be used in the calculation mode.)

Display Key Procedure

▽

Press ▽ key.

▽

FAST/SLOW key is useful when …

>>> reading varies significantly and it is hard to see the graph.

Press FAST/SLOW key.

····· SLOW 1 (moving average deviations for 5 sec.)

FAST/SLOW

Press FAST/SLOW key

····· SLOW 2 (moving average deviations for 10 sec.)

△

Press △ key to go back to the original screen.

HOLD

Press HOLD key

★ Display screen will be on hold.

Even while the reading is on hold, you can still change the

range and switch FAST/SLOW.

Press PRINT key

★ When the reading is on hold, the display can be printed out.

’08.07.01 FAST

10:26:40

5.38 m/s

25.7 ℃

TIME (20S/DIV)

m/s VEL. FAST

TIME (20S/DIV)

m/s VEL. FAST

TIME (20S/DIV)

m/s VEL. SLOW1

TIME (20S/DIV)

m/s VEL. SLOW2

’08.07.01 SLOW2

10:26:40

5.38 m/s

25.7 ℃

Air velocity value

updated every 1 sec one screen: 90 sec

air

velocit

measuring time

(sec)

m/s VEL. FAST

TIME (20S/DIV)

▽ key

Range: 50, 25, 10, 5, 2, 1 m/s

FAST, SLOW1, SLOW2

"P9

FAST/SLOW key

20 sec

90 sec

time axis

Press ▽ key again.

★ Air velocity range changes.

Page 17

2. Basic Operation

2.4 Remaining Battery Level

Display Key Procedure

BATT

Press BATT key.

★ The remaining battery capacity level will be displayed for 2

seconds. Then the screen will go back to the original screen

automatically.

* Voltage for a new dry cell battery is 9V.

* Voltage for a fully charged Ni-Cd battery is about 8.5V.

2.4.1 Battery Level Indicator

 When the remaining battery level becomes lower than 6V, the display screen

will start blinking.

Please note that the reading when the screen is blinking cannot be

guaranteed.

* Once the voltage of Ni-Cd battery becomes 6.5V or lower, the voltage

will decrease at a rapid pace. Charge the batteries ahead of time.

* Using backlight drains battery quickly. Please use the backlight only

when necessary.

This feature is available only on the monitoring screen or when the instrument is ready for a measurement in the measurement mode (when “ready” is displayed). On other screens this feature cannot be used.

’08.07.01 FAST

10:26:40

5.38 m/s

25.7 ℃

’08.07.01 FAST

10:26:40

5.38 m/s

25.7 ℃

Change the batteries when

the screen starts blinking.

When the remaining battery

capacity level becomes lower:

PLEASE

CHANGE BATTERY

’08.07.01 FAST

10:26:40

5.38 m/s

25.7 ℃

blinking

remaining battery capacity level

Voltage (V)

7 8

BATTERY CHANGE

VOLTAGE 6V

Page 18

2. Basic Operation

2.5 How to Change Data and Time

Display Key Procedure

MENU (1) Press MENU key.

△, ▽

SET

(2) Select 5. UTILITY.

Then press SET key.

△, ▽

SET

(3) Select 1. CALENDAR.

Then press SET key.

△, ▽

SET

(4) Move the ▼ to the item to be

changed.

Then press SET key.

△, ▽

SET

(5) The figure to be changed will be highlighted.

Then use △ ▽ keys to change the figure. After the figure is changed, press SET key.

(6) To continue changing the date and time, repeat the above

procedure (4) and (5)

When you finished changing the data/time, press MENU key.

△, ▽

SET

(7) Select 1. MONITOR.

Then SET key.

(8) The display will return to the original screen. Then check if the

date/time is changed correctly.

< CALENDAR >

DATE

2008. 07. 01

TIME

10 : 25

Year. Month. Date

Hour : Min.

* Second is not configurable.

< MENU >

1.MONITOR

2.MEASUREMENT

3.DATA OUTPUT

4.MEMORY CLEAR

5.UTILITY

< UTILITY >

1.CALENDAR

2.ANALOG OUTPUT

3.PROGRAM SET

4.RS-232C

< CALENDAR >

DATE

2008. 07. 01

TIME

10 : 25

▼

< CALENDAR >

DATE

2008. 07. 01

TIME

10 : 25

< CALENDAR >

DATE

2008. 07. 01

TIME

10 : 25

▼

< MENU >

1.MONITOR

2.MEASUREMENT

3.DATA OUTPUT

’08.07.15 FAST

10:26:40

12.8 m/s

27.5 ℃

Page 19

2. Basic Operation

2.6 Printing Hard Copy of the Monitor Screen

2.6.1 What you need

★ Printer (sold separately) ····· Recommended model is DPU-201GS (Seiko Instruments Inc.)

★ Cable to connect the instrument and a printer (sold separately)

2.6.2 Printer Setting

Switch No. Function Anemomaster Printer

SW 1 Word Length 8 bit ON SW 2 Parity Yes/No None ON SW 3 Parity Setting None ON

SW 4～6

Baud Rate 4800 Table Below

Baud Rate SW 4 SW5 SW6

4800 OFF ON OFF

2.6.3 Signal Cable Connection

Anemomaster Printer

Signal Pin No. Signal Name Signal Pin No. Signal Name

3 (orange) TXD 3 DATA

1 (brown) GND 5 GND

4 (yellow) CTS 8 BUSY

2.6.4 Operation Procedure

1. Connect the instrument (RS-232C output terminal) and a printer.

2. Turn on both of the instrument and the printer.

3. Confirm that the Anemomaster’s display is an initial screen.

4. Press HOLD key to hold the display screen.

5. When the display is on hold, press PRINT key.

To Halt Printing Temporarily and To Cancel Printing

 Temporary Halt: To stop printing temporarily, press PRINT key while printing. To recommence printing, press PRINT key again.  Cancel Printing: To stop printing temporarily, press PRINT key while printing. When the printing is halted, press MENU key. As the menu screen will be displayed, select 1. MONITOR.

Press PRINT key when this

screen (on hold) is displayed.

’08.07.01

hold 10:26:40

5.38 m/s

25.7 °C

Page 20

3. Measurement Mode

3.1 How to Measure Average, Max and Min value [Average Mode]

* Data is collected every designated sampling time.

Each data (DATA (N)) is not the average value per sampling time but instantaneous value.

Display Key Procedure

MENU (1) Press MENU key.

△, ▽

SET

(2) Select 2. MEASUREMENT

Then press SET key.

△, ▽

SET

(3) Select 1. A VERAGE

Then press SET key.

△, ▽

SET

(4) Select the item that you want to change.

¾ For more information on the each item, please refer to the

“Measurement Condition” on the next page

Then press SET key.

△, ▽

SET

(5) The item to be changed will be highlighted.

Use △、▽ keys to change the number.

Then press SET key.

(6) For the other items, follow likewise the above procedure

(4) and (5).

 Average Value

AV E = ΣDATA(N)/N

 Max & Min Values

MAX=DATA(i) MIN=DATA

(j)

DATA (N)

DATA (1)

DATA (2)

DATA (3)

Sampling Time

----- S-TIME (S)

Measurement Time

----- S-TIME (S) × (No. of Data)

AV E R A G E

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< MEASUREMENT >

1. AVERAGE

2. INTERVAL

3. FLOW RATE

< AVE >

1. S-TIME (s) 01

2. DATA (N) 001

3. MEMORY NO

4. PRINT NO

5. SET OK!

< AVE >

1. S-TIME (s) 01

2. DATA (N) 001

3. MEMORY NO

< MENU >

1. S-TIME (s) 01

2. DATA (N) 001

3. MEMORY NO

< AVE >

1. S-TIME (s) 01

2. DATA (N) 001

3. MEMORY NO

4. PRINT NO

Sampling Time (sec)

No of data to be collected

Save data? (YES or NO)

Print out calculation result?

(YES or NO)

Use △, ▽ to change

Page 21

3. Measurement Mode

△, ▽

SET

(7) After measurement condition is set, select 5. SET OK!.

Then press SET key.

START/STOP

(8) ready will be displayed indicating that the instrument is ready

to start a measurement.

Press START/STOP key to start sampling.

☆To go back to the previous screen (measurement condition

setting screen) press △ key.

[Start

Measuring]

[Stop

Measuring]

[Calculation

Result]

Printing

Example

☆To stop measuring halfway through: START/STOP or ▽ key.

- The data collected until the measurement is halted will be

calculated.

☆To cancel measuring (a): Press △ key.

- It will go back to screen (a) where the instrument is ready to

start a measurement.

☆To cancel a measurement (b): Press MENU key.

- It will go back to the menu screen.

☆ PRINT: hardcopy of the display screen ☆ START/STOP or ▽: ready for measuring (a) ☆ MENU: menu will be displayed.

S-TIME (S): Set the length of sampling (instantaneous value) time.

Configurable sampling time (sec): 1 ~ 6, 10, 12, 15, 20, 30, 40, 50, 60 sec

DATA (N): Set how many data to be taken every configured sampling time.

Configurable number of data: 1 ~ 6, 10, 12, 15, 20, 30, 40, 50, 60, 100, 120, 150, 180

MEMORY: When YES, data will be stored in the internal memory.

For details on memory capacity, refer to P22.

PRINT:

When YES, the calculation result will be output to the printer automatically. When NO

, you can still print out the hardcopy of the calculation result by pressing PRINT key

after the calculation result is displayed. Refer to P24 for printout samples.

[Measurement Condition]

(a)

T:01/10···S-TIME(S)

M:015--- used memory (shown in %. When it shows 100 (%),

there is no memory left.)

N:001/060···DATA (N)

P:007--- the page number where the data is stored "P22 If 3.MEMORY NO

is selected, it will not be displayed.

setting value (sec)

will be increased every second

setting value

will be increased every time data is collected.

3. MEMORY NO

4. PRINT NO

5. SET OK!

<AVE> ready T: 00/10 M:015 N: 000/010 P:007

16.8 m/s 127 ℃

<AVE> T: 01/10 M:015 N: 001/060 P:007

16.8 m/s 127 ℃

<AVE> T: 10/10 M:016 N: 060/060 P:007

12.8 m/s 126 ℃

<AVE RESULT> AVE: 12.8 m/s MAX: 15.8 m/s MIN : 10.8 m/s AVE: 126 ℃ MAX: 129 ℃ MIN : 123 ℃

Page 22

3. Measurement Mode

3.2 How to Collect Data at Certain Time Intervals [Interval Mode]

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 2. MEASUREMENT

Then press SET key.

△, ▽

SET

(3) Select 2. INTERVAL.

Then press SET key.

△, ▽

SET

(4) Set the measurement condition

in the same manner as when

configuring Average Mode

measurement (P

14).

When the measurement condition is configured, select 7. SET OK!, and press SET key.

☆ To select the item to be

changed

△, ▽⇨SET ☆ To change setting value

and YES/NO.

△, ▽⇨SET ☆ Setting is complete.

7. SET OK! ⇨ SET

(a)

 Data at each point is average value.

POINT 1···AVE 1=ΣDATA(N)/N

POINT 2···AVE 1=ΣDATA(N)/N

· · ·

POINT N --- AVE H=ΣDATA(N)/N

AVE=(AVE1+AVE2+ -----AVE N)/No. of POINT (N)

MAX=AVE I, MIN=AVE J

AVE1, AVE2, ··· AVE N are stored as a data at each point.

Calculation Result

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< MEASUREMENT >

1. AVERAGE

2. INTERVAL

3. FLOW RATE

< INT >

1. S-TIME(S) 01

2. DATA (N) 010

3. INT (min) 060

4. POINTS 024

5. MEMORY YES

6. PRINT YES

7. SET OK!

How long it takes to finish measuring

INT (min) × No. of POINTS (N)

Time length required to measure at one point

S-TIME (S) × N (No. of Data)

DATA (1)

(2)

(3) ·······(N)

DATA (1)

(2) (3) ·······(N)

DATA (1)

(2) (3) ·······(N)

Time interval until the next sampling starts Interval Time --- INT (min)

[POINT 1] [POINT 2]

[POINT N]

S-TIME (S)

<Measurement Setting

Screen>

Page 23

3. Measurement Mode

START/STOP

(5) ready will be displayed indicating that the instrument is ready

to start a measurement.

Press START/STOP key to start sampling.

☆ To go back to the measurement setting screen (a), press △

key.

[Start

Measuring]

[Waiting]

(6)

(6-1):

Sampling at one point.

(6-2): After a sampling at one point is finished, the instrument will standby for the next sampling. On the screen, the average value for one point will be displayed until the next measurement will start. (6-3): One minute is left before the next measurement starts One minute later, the screen will become screen (6-1) and a measurement will start.

[Stop

Measuring]

(7) Repeat the above procedure from (6-1) to (6-3) for the

configured number of points.

☆To stop measuring halfway through: START/STOP or ▽ key.

- The data collected until the measurement is halted will be calculated.

☆To stop measuring (1): △ key.

- It will go back to the screen (b) where the instrument is ready to start a measurement.

☆To cancel a measurement (2): MENU key.

- It will go back to the menu screen.

Calculation

Result

Printing

Example

Data at each point is an average data. Average, maximum and

minimum of the average data at each point will be displayed.

☆ PRINT: hardcopy of the display screen ☆ START/STOP or ▽: ready for measuring (screen b) ☆ MENU: menu will be displayed

INT (min): Set how often a measurement to be started.

Configurable sampling interval (min):

1 ~ 6, 10, 12, 15, 20, 30, 40, 50, 60, 100, 120, 150, 180 min.

* Interval (INT) has to be set longer time than sampling time at each point.

POINTS: Set how many points you want to perform a measurement?

Configurable number of points: 1 ~ 999 points

* For S-TIME(S), DATA(N), MEMORY, PRINT, refer to page 15 describing the average measurement.

[Measurement Condition]

(6-1)

<INT> ready T: 00/10 M:036 N: 000/010 P:016

16.8 m/s 127 ℃

<INT> T: 01/10 M:036 N: 001/010 P:016

16.8 m/s 128 ℃

<INT> WAIT 001 min POINTS 001/024

16.8 m/s 126 ℃

<INT RESULT> AVE: 19.8 m/s MAX: 21.6 m/s MIN : 18.5 m/s AVE: 126 ℃ MAX: 129 ℃ MIN : 123 ℃

As for “ready” display, refer to page 16 describing average measurement.

(6-2)

(6-3)

(b)

WAIT 060 min:

waiting time

remaining time length before the next measurement starts (min)

POINTS 001/024: point

Current sampling trial No.

Total set No. of

measurement trials

<INT> WAIT 060 min POINTS 001/024

12.8 m/s 126 ℃

Page 24

3. Measurement Mode

3.3 How to Measure Flow Rate in the Duct [Flow Rate Mode]

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 2. MEASUREMENT

Then press SET key.

△, ▽

SET

(3) Select 3. FLOW RATE

Then press SET key.

△, ▽

SET

(4) Set the measurement condition

in the same manner as when

configuring Average Mode (P

14).

When the measurement condition is configured, select 7. SET OK!, and press SET key.

Air Volume (F) = Average Air Velocity (U) × Cross Section (AREA)

indicated in m³/hour and m³/min

Example

POINT 1 --- AVE 1 = Σ DATA (N)/N POINT 2 --- AVE 2 =Σ DATA (N)/N

POINT M --- AVE M =Σ DATA (N)/N

* To start a measurement at each point: START/STOP key

* For detailed information on measuring at each point, refer to 3.2 How to

Collect Data at Certain Time Intervals [Interval Mode] (P16).

Average Air Velocity

U =

(AVE1+AVE2+···AVE N)

No. of Points (M)

Measuring Point

(POINT)

Duct Area

r1=0.316R r2=0.548R r3=0.707R r4=0.837R r5=0.949R

Measuring Point

 Calculation result

 Measurement

FLOW RATE

(a)

☆ To select the item to be

changed

△, ▽⇨SET ☆ To change setting value

and YES/NO.

△, ▽⇨SET ☆ Setting is complete.

7. SET OK!

⇨ SET

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< MEASUREMENT >

1. AVERAGE

2. INTERVAL

3. FLOW RATE

< FLOW >

1. S-TIME(S) 01

2. DATA (N) 010

3. POINTS 016

4. AREA(m2) 0.100

5. MEMORY YES

6. PRINT YES

7. SET OK!

<Measurement Setting

Screen>

Page 25

3. Measurement Mode

Display Key Procedure

START/STOP

(5) ready will be displayed indicating that the instrument is ready

to start a measurement.

Press START/STOP key to start sampling.

☆ To go back to the measurement setting screen (a), press △

key.

[Start

Measuring]

(6)

(6-1)

Measuring at one point.

(6-2)

After measuring at one point is finished, move the probe to the next

point and press START/STOP key. Then measuring at the next point

will start.

★ Repeat the above procedure (6-1) and (6-2) for the configured

number of sampling points.

START/STOP

☆ To stop measuring halfway through: ▽ key.

- While sampling at a point, the sampling at the point will be

finished.

- When the instrument is waiting for the next sampling, the data

taken before the measurement stopped will be calculated.

☆ To stop a measurement (1) : △ key

- Will go back to the measurement standby mode (screen (b))

☆ To stop a measurement (2) : MENU key

- Will go back to the menu screen.

[Calculation

Result]

☆ PRINT: hardcopy of the display screen ☆ START/STOP or ▽: ready for measuring (to continue sampling)

☆ MENU: menu will be displayed.

NEXT START! --- waiting for sampling at the next point.

POINTS 001/016 --- No. of Points

setting value

No. of points where sampling has been done

8.100 m3/min

486.00 m3/hour VEL 13.5 m/s TEMP 126 ℃

Air volume (m³/m)

Air volume (m³/h)

Avg air velocity

Avg ai r t em p

(b)

(6-1)

[Measurement Condition]

POINTS:

Set how many points to perform a measurement to find average air velocity?

Configurable number of partitions: 1 ~ 100 points

AREA(m²): Duct’s cross section area (Effective Area)

Configurable area size: 0.001～9.999m² * For S-TIME(S), DATA(N), MEMORY, PRINT, refer to page 15 describing the average

measurement.

< FLOW >ready T: 00/10 M:036 N: 000/010 P:012

16.8 m/s 126 ℃

< FLOW > T: 01/10 M:036 N: 001/010 P:012

16.8 m/s 127 ℃

< FLOW >

NEXT START !

POINTS 001/016

16.8 m/s 127 ℃

< FLOW > T: 10/10 M:037 N: 001/010 P:012

16.8 m/s 126 ℃

Page 26

3. Measurement Mode

3.4 Program Set

3.4.1 How to Pre-set Measurement Mode

 If a measurement mode is preset, the instrument will enter the measurement standby when you turn it on.

To start a measurement, you only need to press START/STOP key.

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 5. UTILITY.

Then press SET key.

△, ▽

SET

(3) Select 3. PROGRAM SET.

Then press SET key.

△, ▽

SET

(4) Select a measurement mode to be used.

Then press SET key.

(5) The cursor will move to the selected calculation mode.

Then, the measurement condition setting screen will be

displayed automatically.

△, ▽

SET

(6) Configure measurement setting. Then move the cursor to 5. SET

OK, and press SET key.

The set measurement mode will be applied even when you turn

off the instrument.

If you turn the power on again, it will enter the measurement

standby mode.

OFF: No Program Set AVERAGE: Average Value Measurement INTERVAL: Intermittent Operation Measurement FLOW RATE: Air Flow Measurement

POWER

SW-ON

Measurement Start

<AVE> T: 01/10 M:015 N: 001/060 P:007

16.8 m/s 127 ℃

Calculation Result

<AVE RESULT> AVE: 12.8 m/s MAX: 15.8 m/s MIN : 10.8 m/s AVE: 126 ℃ MAX: 129 ℃ MIN : 123 ℃

Ready for measuring

Measurement Mode

Measurement Condition

<AVE> ready T: 00/10 M:015 N: 000/010 P:007

16.8 m/s 127 ℃

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< UTILITY >

1. CALENDAR

2. ANALOG OUTPUT

3. PROGRAM SET

4. RS-232C

< AVE >

1. S-TIME (s) 01

2. DATA (N) 10

3. MEMORY YES

4. PRINT YES

5. SET OK!

< PROGRAM SET >

1. OFF

2. AVERAGE

3. INTERVAL

4. FLOW RATE

< PROGRAM SET >

1. OFF

2. AVERAGE

3. INTERVAL

4. FLOW RATE

<Measurement Setting

Screen>

Page 27

3. Measurement Mode

3.4.2 Other Measurement Mode Cannot be Used

 When a measurement mode is set, only the configured mode can be used. Even if you select 2. MEASUREMENT

on the menu screen, a screen that allows you to select a measurement mode will not display. In stead you will

see the screen that allows you to configure the measurement setting for the set measurement mode. In order to

use other measurement mode, you need to deactivate the current selected mode.

[Example] When Flow Rate mode is set;

Even if you select 2. MEASUREMENT

, ·················································

3.4.3 How to Deactivate Pre-set Measurement Mode

 In the same manner as when you configure program setting, display the <PROGRAM SET> screen.

When it is displayed, select 1. OFF

Display Key Procedure

△, ▽

SET

(1) Select 1. OFF

Then press SET key.

OFF

(2) 1. OFF

will be highlighted.

Then, the menu screen will be displayed automatically.

△, ▽

SET

(3) Select 2. MEASUREMENT to perform a measurement.

<MENU>

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

1. S-TIME (S) 01

2. DATA (M) 010

3. POINTS 016

1. AVERAGE

2. INTERVAL

3. FLOW RATE

POWER SW – ON

Air Volume Calculation

Measurement Standby

SET

The below screen will not

e displayed.

< PROGRAM SET >

1. OFF

2. AVERAGE

3. INTERVAL

4. FLOW RATE

< PROGRAM SET >

1. OFF

2. AVERAGE

3. INTERVAL

4. FLOW RATE

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

Page 28

3. Measurement Mode

3.5 Memory Capacity

 Measurement data is stored per page. On top of the each page the

measurement condition is stored. Therefore, the more pages you

save, the less data you can store.

Below describes how to figure out how many pages of data can be

stored when you know how many data you want to take.

Number of Bytes Used per Page

(1) Measurement Starting Date (08. 7. 1 10:40)

(2) Measurement Item (air velocity, air temp VT)

(3) Measurement

(Average: AVE, Interval: INT, Air Flow: FLW)

(4) Sampling Time (S-TIME(S))

(5) No. of Data (DATA (N))

(6) No. of Measurement Points (POINTS)

(7) Measurement Interval INT (min) or Duct Area AREA (m²)

(8) Air Velocity Data and Air Temperature Data

12 bytes

2 bytes

4 bytes × No. of data

How to Figure Out How Many Pages Can Be Saved

Internal Memory --- Memory Capacity 4770 bytes 1 page ··· (24+4×N) bytes

P = 4770

/ (24 + 4 × N)

[Example] When N is 10, P is 74 according to the above formula.

This means that when the number of data is 10, you can perform a measurement for 74 times

(pages).

★ Measurement data is stored per page.

★ Make sure to check in which page the

data is stored.

★ A measurement data consists of air

velocity data and air temperature data.

Data

Memory Ca

acit

Measurement Condition Total: 24 bytes

Page 1

····· ·····

Page 2 Page N

Measurement Data

·····

····· ·····

·····

Measurement Condition

Average Value Measurement: Data Volume (DATA (N)) Intermittent Operation: Number of Points (POINTS) Air Flow Measurement: Number of Points (POINTS)

Page 29

3. Measurement Mode

3.5.1 “Memory Over” Display

 When “SET OK!” is selected on the measurement setting screen, the instrument determines if there is enough

memory capacity. If there is not enough memory capacity left, “MEMORY OVER” will be displayed.

Ave. Value Measurement Intermittent Operation Air Flow Measurement Explanation

After configuring each measurement condition,

select SET OK!

Then press SET.

The cursor will move to DATA (N) or POINTS automatically. Change the setting or delete the data ("P

28)

 When repeating a measurement by using START/STOP key or a measurement mode is set, the instrument

determines if there is enough memory left on the measurement stand-by screen.

< FLOW >

1. S-TIME(S) 01

2. DATA (N) 010

3. POINTS 060

4. AREA(m2) 1.000

5. MEMORY YES

6. PRINT NO MEMORY OVER

“MEMORY OVER” display

[Example] Average Vale Calculation

“MEMORY OVER” display

Calculation Result

Display Screen

When a calculation

program is set

Press START/STOP key.

Power SW-ON

< AVE >

1. S-TIME (s) 01

2. DATA (N) 100

3. MEMORY YES

4. PRINT NO

5. SET OK!

< AVE >

1. S-TIME (s) 01

2. DATA (N) 100

3. MEMORY YES

4. PRINT NO MEMORY OVER

< AVE >

1. S-TIME (s) 01

2. DATA (N) 100

3. MEMORY YES

4. PRINT NO

5. SET OK!

< INT >

1. S-TIME(S) 01

2. DATA (N) 010

3. INT (min) 060

4. POINTS 024

5. MEMORY YES

6. PRINT NO

7. SET OK!

< INT >

1. S-TIME(S) 01

2. DATA (N) 010

3. INT (min) 060

4. POINTS 024

5. MEMORY YES

6. PRINT NO MEMORY OVER

< INT >

1. S-TIME(S) 01

2. DATA (N) 010

3. INT (min) 060

4. POINTS 024

5. MEMORY YES

6. PRINT NO

7. SET OK!

< FLOW >

1. S-TIME(S) 01

2. DATA (N) 010

3. POINTS 060

4. AREA(m2) 1.000

5. MEMORY YES

6. PRINT NO

7. SET OK!

< FLOW >

1. S-TIME(S) 01

2. DATA (N) 010

3. POINTS 060

4. AREA(m2) 1.000

5. MEMORY YES

6. PRINT NO

7. SET OK!

< AVE >

1. S-TIME (s) 01

2. DATA (N) 100

3. MEMORY YES

4. PRINT NO

5. SET OK!

<AVE> ready

MEMORY OVER

16.8 m/s 127 ℃

Page 30

3. Measurement Mode

3.6 Printing Example – Automatic Printing and Hardcopy of Calculation Result

3.6.1 Automatic Printing Example

Average Mode Interval Mode Air Flow Mode

3.6.2 Hardcopy Example

Ave. Value Measurement Intermittent Operation Air Flow Measurement

* In the hardcopy of the

screen after calculation result is displayed, date, time and measurement condition will not be printed.

2008.07.01 10:26

<AVE>

S-TIME (S) 01 DATA (N) 010 MEMORY P001

VELOCITY

AVE: 2.58 m/s MAX: 3.73 m/s MIN: 1.69 m/s

TEMPERATURE

AVE: 126

℃

MAX: 129

℃

MIN: 123 ℃

2008.07.01 10:26

<INT>

S-TIME (S) 01 DATA (N) 010 INT (min) 060 POINTS 024 MEMORY P001

VELOCITY

AVE: 2.58 m/s MAX: 3.73 m/s MIN: 1.69 m/s

TEMPERATURE

AVE: 126

℃

MAX: 129

℃

MIN: 123

℃

2008.07.01 10:26

<FLOW>

S-TIME (S) 01 DATA (N) 010 POINTS 024 AREA (m2) 0.100 MEMORY P001

FLOW RATE

15.240 m3/min

914.40 m3/hour

VELOCITY

2.54 m/s

TEMPERATURE

126

℃

Page number where the measurement data is stored When data is not stored, “NONE” is indicated here.

Measurement starting date & time

Measurement Condition

Measurement Mode

Calculation Resul

<RESULT> AVE: 2.58 m/s MAX: 3.73 m/s MIN: 1.69 m/s AVE: 126℃ MAX: 129℃ MIN: 123℃

15.240 m3/min

914.40 m3/hour

VEL 2.54 m/s TEMP 126 ℃

Page 31

4. How to Redisplay, Print and Delete Stored Data

4.1 How to Redisplay Data

You can re-display the stored calculation result.

However, each memory data cannot be displayed on the

instrument’s display. You need to either output to the printer

or transfer data to the computer via digital output (RS-232C)

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 3.DATA OUTPUT.

Then press SET key.

△, ▽

SET

(3) Select 1.DISPLAY

Then press SET key.

△, ▽

SET

(4) Select the page to be output.

Then press SET key.

[Calculation

Result]

☆ START/STOP or ▽: Page setting screen (a) ☆ MENU: menu display

If data is not stored, “data not found! MODE PAGE” will be displayed and go back to the menu screen.

(a)

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< DATA OUTPUT >

1. DISPLAY

2. PRINTER

3. COMPUTER

MEMORY

P: 001

AVERAGE [VT]

’08.07.01 10：26

< RESULT > AVE: 12.5 m/s MAX: 13.8 m/s MIN : 11.6 m/s AVE: 126 ℃ MAX: 129 ℃ MIN : 123 ℃

Measurement

mode

Measurement item VT: velocity & temp.

Memory page

number

Measurement

data& time

MEMORY

P: 001

AVERAGE [VT]

’08.07.01 10：26

Page 32

4. How to Redisplay, Print and Delete Stored Data

4.2 How to Output Data to Printer

4.2.1 Procedure for outputting data to a printer

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 3.DATA OUTPUT

Then press SET key.

△, ▽

SET

(3) Select 2.PRINTER

Then press SET key.

△, ▽

SET

(4) Select 1.START P:001

Then press SET key.

△, ▽

SET

(5) 1.START P:001

will be highlighted.

Specify the first page to be printed.

Then press SET key.

SET

(6) Select 2.END P:005.

Then press SET key.

△, ▽

(7) 2.END P:005

will be highlighted..

Specify the last page to be printed.

Then press SET key.

MEMORY

P:001 ~ P:007

1. START P:001

2. END P:001

The last page to be printed

Range of stored pages

The first page to be printed

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< DATA OUTPUT >

1. DISPLAY

2. PRINTER

3. COMPUTER

MEMORY

P:001~P:007

1. START P:001

2. END P:001

3. SET OK!

1. START P:005

2. END P:001

3. SET OK

1. START P:005

2. END P:005

3. SET OK

1. START P:005

2. END P:007

3. SET OK

Page 33

4. How to Redisplay, Print and Delete Stored Data

SET

(8) Move the cursor to 3. SET OK!

Press SET key.

△, ▽

SET

(9) Select the item to be output.

Then press SET key.

[Printing]

☆ To halt printing temporarily: Press PRINT key ☆ To stop printing completely: Press PRINT MENU key

(10) After printing, it will go back to the page setting screen.

☆ To continue printing, repeat the above procedure.

☆ To finish printing, press MENU key.

4.2.2 Printing Example

RESULT:Only calculation result is output.

DATA: Only measurement data is output.

ALL: Both calculation result and

measurement data are output.

1. START P:005

2. END P:007

3. SET OK!

< FORMAT >

1. RESULT

2. DATA

3. ALL

<PRINT>

MEMORY

P:001~P:007

1. START P:001

2. END P:001

3. SET OK!

Measurement Condition

(will be printed all the time)

Calculation

Result

Measurement

Data

<DATA>

<ALL>

[Average Mode]

2008.07.01 10:57 <AVE>

S-TIME(S) 01 DATA(N) 010 MEMORY P001

VELOCITY AVE: 2.58 m/s MAX: 2.87 m/s MIN: 1.89 m/s

TEMPERATURE

AVE: 126

MAX: 129

MIN: 123

No. VEL TEMP

(m/s) (

C) 1 2.37 126 2 2.83 126 3 2.47 125 4 1.89 124

[Interval Mode]

2008.07.01 10:57 <INT>

S-TIME(S) 01 DATA(N) 010 INT(min) 060 POINTS 024 MEMORY P001

VELOCITY AVE: 2.58 m/s MAX: 2.87 m/s MIN: 1.89 m/s

TEMPERATURE

AVE: 126

MAX: 129

MIN: 123

No. VEL TEMP

(m/s) (

C) 1 2.37 126 2 2.83 125

2008.07.01 10:57 <FLOW>

S-TIME(S) 01 DATA(N) 010 POINTS 016 AREA(m2) 0.100 MEMORY P001

FLOW RATE

15.180 m3/min

910.80 m3/hour VELOCITY

2.53 m/s

TEMPERATURE

126

No. VEL TEMP

(m/s) (

C) 1 2.37 126 2 2.83 126 3 2.47 125

[Air Flow Mode]

Page 34

4. How to Redisplay, Print and Delete Stored Data

4.3 Deleting Memory Data

4.3.1 Deleting All

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 4. MEMORY CLEAR.

Then press SET key.

△, ▽

SET

△, ▽

SET

(3) Select 1. ALL CLEAR

Then press SET key.

(4) Select 2. YES

Then press SET key.

★ When all data is deleted, it will go back to the menu screen.

* The page number will be moved up.

[Example] When deleting from P003 to P005, P036 will be renamed as P033.

ALL CLEAR

P001

P002

P003

Page

· ·

Deleting All

CLEAR

P003

P004

P005

P036

P001

P002

Deleting partially

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< MEMORY CLEAR >

1. ALL CLEAR

2. CLEAR

MEMORY

ALL CLEAR OK?

1. NO

2. YES

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

Page 35

4. How to Redisplay, Print and Delete Stored Data

4.3.2 Deleting Selected Pages Only

Display Key Procedure

MENU (1) Press MENU key.

△, ▽

SET

(2) Select 4. MEMORY CLEAR.

Then press SET key.

△, ▽

SET

(3) Select 2. CLEAR.

Then press SET key.

△, ▽

SET

(4) Select 1. START P: 001.

Then press SET key.

△, ▽

SET

(5) Specify the first page to be deleted.

Then press SET key.

SET

(6) Move to 2. END P: 003.

Then press SET key.

△, ▽

SET

(7) Specify the last page to be deleted.

Then press SET key.

SET

(8) Confirm the range of the pages to be deleted.

If it is OK, press SET key.

(9) The selected pages are deleted and it will go back to the menu

screen.

* The page number will be moved up.

If any data is not stored, “data not found! NONE PAGE” will be displayed and it will go back to the menu screen.

MEMORY

P:001~P:025

1. START P:001

2. END P:001

3. SET OK!

1. START P:001

2. END P:001

3. SET OK

1. START P:003

2. END P:003

3. SET OK

1. START P:003

2. END P:003

3. SET OK

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< MEMORY CLEAR >

1. ALL CLEAR

2. CLEAR

1. START P:003

2. END P:005

3. SET OK!

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

The last page to be deleted

The first page to be delete

MEMORY

P:001~P:025

1. START P:001

2. END P:001

3. SET OK!

Range of stored pages

Page 36

5. Data Output

5.1 Analog Output

 Output on the measurement screen -------------------------------------- ★ To be output every 0.25 second

★ Output Voltage: DC0 ~ 1V

★ Output Impedance: 47Ω

5.1.1 How to Change Air Velocity Range

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 5. UTILITY.

Then press SET key.

△, ▽

SET

(3) Select 2. ANALOG OUTPUT.

Then press SET key.

△, ▽

SET

(4) Select 1. VELOCITY.

Then press SET key.

Output Range

Air Velocity Air Temp. 0 ~ 5 m/s 0 ~ 50 °C 0 ~ 25 m/s 0 ~ 100 °C 0 ~ 50 m/s 0 ~ 200 °C 0 ~ 500 °C

Initial Screen: Except when the screen is on hold

Measurement Mode: Except when the calculation result

is displayed or the instrument is waiting for the next sampling

Analog Output Terminal

V: Air Velocity T: Air Temperature

(a)

< MENU >

1.MONITOR

2.MEASUREMENT

3.DATA OUTPUT

4.MEMORY CLEAR

5.UTILITY

< UTILITY >

1.CALENDAR

2.ANALOG OUTPUT

3.PROGRAM SET

4.RS-232C

< ANALOG OUTPUT >

1. VELOCITY

2. TEMPERATURE

Page 37

5. Data Output

△, ▽

SET

(5)

(a) The range highlighted is the current set range.

If there is no change to be made, press SET key.

The screen will go back to the ANALOG OUTPUT screen (a).

(b) To change the range, select the range and press SET key.

(6) The selected range will be highlighted, and the screen will

automatically go back to the ANALOG OUTPUT screen (a).

(7) Press MENU key to go back to the menu screen.

* Analog voltage is output ony when the display screen indicates a

measurement is being performed.

To change the air temperature’s

output, perform the same

procedure.

(a)

< RANGE >

1. 0 ~ 5 m/s

2. 0 ~ 25 m/s

3. 0 ~ 50 m/s

< MENU >

1.MONITOR

2.MEASUREMENT

3.DATA OUTPUT

4.MEMORY CLEAR

5.UTILITY

< ANALOG OUTPUT >

1. VELOCITY

2. TEMPERATURE

< RANGE >

1. 0 ~ 5 m/s

2. 0 ~ 25 m/s

3. 0 ~ 50 m/s

< RANGE >

1. 0 ~ 5 m/s

2. 0 ~ 25 m/s

3. 0 ~ 50 m/s

Range Conversion Equation

0~ 5 m/s U = 0.005 × V 0~25 m/s U = 0.025 × V

Air

Ve lo c it y

0~50 m/s U = 0.05 × V 0~50 °C T = 0.05 × V 0~100 °C 0~200 °C

T = 0.1 × V T = 0.2 × V

Air

Te mp .

0~500 °C T = 0.05 × V

Ve lo c it y Te m

2.5

5.0 m/s °

0.5

1.0

Out

(

)

[Symbols] U: Air Velocity (m/s) T: Air Temp (°C) V: Output Voltage (mV)

< Output Voltage Conversion>

Page 38

5. Data Output

5.2 Digital Output (RS-232C)

5.2.1 Connection Example

Anemomaster (MODEL 6162)

Signal Name

Wire

Connection

Pin No. Signal Name Signal Meaning Signal Direction Signal Line Color GND 1 GND Signal Ground - - - Brown TXD 2 RXD Received Data Input Red RXD 3 TXD Transmit Data Output Orange

RTS 4 CTS Clear To Send Input Yellow

CTS 5 RTS Request To Send Output Blue DSR DCD DTR

5.2.2 Baud Rate Setting

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 5. UTILITY.

Then press SET key.

△, ▽

SET

(3) Select 4. RS-232C.

Then press SET key.

△, ▽

SET

(4) Select baud rate.

Then press SET key.

(5) The selected baud rate will be highlighted, and the screen will

automatically display menu screen.

★ To transfer raw data: 1. MONITOR

To transfer memory data: 3. DATA OUTPUT

Output Format

Baud Rate: 4800, 1200 Word Length: 8 bit Parity Bit: None Stop Bit: 1 bit

< MENU >

1.MONITOR

2.MEASUREMENT

3.DATA OUTPUT

4.MEMORY CLEAR

5.UTILITY

< UTILITY >

1.CALENDAR

2.ANALOG OUTPUT

3.PROGRAM SET

4.RS-232C

< RS – 232C >

1. 1200 bps

2. 4800 bps

< RS – 232C >

1. 1200 bps

2. 4800 bps

< MENU >

Page 39

5. Data Output

5.2.3 To Transfer Raw Data (measurement data per second)

When transferring data, make sure to display the monitor screen.

While transferring data, do not use other functions.

Output Format

Command Explanation

Command Function Explanation

D *

To s et the

number of data

to be retrieved.

After command is received, AD will be returned.

Then, the configured number of data (*) will be output every one second.

The maximum number of data to be output is 1,000 data. To retrieve more than 1,000 data,

send the command again.

To turn probe

power OFF

After command is received, AC will be returned.

At the same time, the air velocity sensor will be turned off.

To turn probe

power ON

After command is received, the air velocity sensor will be turned on again.

30 seconds later AS will be returned and the instrument is ready to retrieve data.

After AS command is received, transfer data by sending D* command.

* Command C

and S can be used when you want to collect data every one hour or so.

By turning the probe off when it is not being used, unnecessary battery drain can be used.

* When command or number of data is entered incorrectly, the error codes listed below will be returned.

(Example: When the number of data exceeds the maximum, E2 will be returned in stead of AD.)

E1 ----- Command Error B3 ----- Battery Error (battery drain)

E2 ----- Data Setting Error

When SLOW is indicated, moving average deviations will be transferred.

Please switch to monitoring screen.

[Output Example]

23.6; 126; *** CRLF : Air Velocity, Air Temp ***

# # # # # ; # # # # # ; # # # # # CRLF : 19 characters

Air Velocity Air Temp. dummy : (unit: m/s, ℃, **)

’08.07.01 FAST

10:26:40

12.8 m/s

27.5 ℃

Page 40

5. Data Output

5.2.4 To Transfer Memory Data (Measurement Data Stored in Memory)

DATA OUTPUT mode in menu screen

Getting Ready for Transferring Memory Data

Display Key Procedure

(1) Press MENU key.

△, ▽

SET

(2) Select 3. DATA OUTPUT.

Then press SET key.

△, ▽

SET

(3) Select 3. COMPUTER.

Then press SET key.

Ready!

(4) When the screen shown on the left is on the display, start (RUN)

the program on your computer.

To Stop Transferring: MENU key

Internal Memory

Start

Transferring

An error message will be displayed when…

1. RS-232C cable is not connected.

2. The wiring connection of the connector is not correct.

Referring to the example of connecting to the host computer, check the

wiring connection. (See 5.2.1 Connection Example (P.32))

3. Data cannot be retrieved.

Baud rate may not be set correctly.

Confirm the baud rate of the host computer and the instrument.

< MENU >

1. MONITOR

2. MEASUREMENT

3. DATA OUTPUT

4. MEMORY CLEAR

5. UTILITY

< DATA OUTPUT >

1. DISPLAY

2. PRINTER

3. COMPUTER

MEMORY

DATA

TRANSMISSION

MEMORY

DATA

TRANSMISSION

DEVICE ERROR !

Error Display

Page 41

5. Data Output

(1) Measurement Mode (VI: Air Velocity & Air Temperature)

(2) Calculation Mode (AVE: Average Measurement INT: Interval Measurement FLW: Flow Measurement)

(3) S-TIME (S) (Sampling Time)

(4) DATA (N) (Number of Data to be collected)

(5) POINTS (No. of samplings (partitions))

(6) Interval Measurement: INT(measurement interval)

Flow Measurement: AREA (m2) (Duct’s cross section area)

Output Format of Measurement Condition ----- M Command

Output Format of Measurement Data ----- T Command

Command Function Explanation

To check the number of

memory pages

After the command is received, AP will be returned.

Then, the number of pages stored will be output.

N *

To check the number of

memory data

After the command is received, AN will be returned.

Then, the number of data in the specified page (*) will be output.

M *

To check measurement

condition

After the command is received, AM will be returned.

Then, the measurement condition in the specified page will be output.

T *

To output measurement

data

After the command is received, AT will be returned.

Then, the measurement data in the specified page will be ouput.

* When page number is entered incorrectly, the error message E will be returned.

As for E1 and E3, refer to

5.2.3 To Transfer Raw Data (measurement data per second).

* AVG Mode:

dummy output

(1)

(2)

(3)

(4)

(5)

(6)

# # ; # # # ; # # ; # # # ; # # # ; # # # # # CRLF : 25 Characters

VT ; FLW ; 60 ; 100 ; 10 ; 1. 456CRLF

(1)

(2)

(3)

(4)

(5)

(6)

[Output

Example]

23.6; 126; *** CRLF ：air velocity, air temp, dummy

# # # # # ; # # # # # ; # # # # # CRLF ：19 Characters

air velocity air temp dummy ： (Unit: m/s, ˚C, **)

[Output Example]

Page 42

6. Main Specification

Specification

(1) Model Name Main Unit:

Probe:

Model 6162

Model 0203 (for mid temperature)

Model 0204 (for high temperature)

(2) Measurement Feature Air velocity and air temperature (simultaneous measurement)

(3) Measurement Object Clean air under normal pressure and normal temperature

Air Velocity: V

~ 50.0m/s (4) Measurement Range

Air Temperature: 0

~ 200 °C (MODEL 0203)

~ 500 °C (MODEL 0204)

(5) Measurement Accuracy

(Normal Temp. Accuracy:

18~28 °C)

(6) Temperature

Compensation Accuracy

(Air Velocity)

(7) Heat Resistance of Cable Teflon Coated (probe side): 200 °C

Vinyl Code (connection cable): 80 °C

(8) Response Air Velocity:

Air Temperature:

4 sec (90% response at air velocity of 5 m/s)

5 sec (90% response at air velocity of 5 m/s)

(9) Display Screen Graphic LCD (120×64dot):

displaying velocity and temperature simultaneously

w/t backlight and brightness adjustment functions

(10) Memory Capacity Max 999 data (when measuring in one page)

(11) Input & Output Terminal Remote Terminal:

Analog output Terminal:

Digital Output Terminal:

START/STOP function

simultaneous velocity & temp. output

output voltage 0

~ 1V (Output Impedance: 47Ω)

(Output Accuracy: 0.5%FS)

RS-232C (serial)

0 ~ 99 °C : V0 = 0.2 m/s 100 ~ 199 °C : V0 = 0.4 m/s 200 ~ 299 °C : V0 = 0.7 m/s 300 ~ 399 °C : V0 = 1.0 m/s

Measurement Range Specified Accuracy Display Resolution

V0 ~ 4.99 m/s

5.00 ~ 9.99 m/s

0.01 m/s

10.0 ~ 24.9 m/s

Air

Ve l o ci t y

25.0 ~ 50.0 m/s

±3%FS

0.1 m/s

0 ~ 99.9 °C 0.2 °C

100 ~ 199 °C

Air

Tem p.

200 ~ 500 °C (0204only)

±1%±1˚C of reading

1 °C

MODEL 0203 MODEL 0204 Tem p.

Ve l o ci t y

0 ~ 200 °C 0 ~ 400 °C

V0 ~ 4.99 m/s ±10%FS ±15%FS

5.00 ~ 9.99 m/s

10.0 ~ 24.9 m/s

25.0 ~ 50.0 m/s

±6%FS ±10%FS

Page 43

6. Main Specification

General Specification

(12) Power Source

Power Supply Voltage

DC 9V (660mA)

Dry Cell: six (6) size C batteries (Alkaline Cell, Manganese Cell)

AC Adapter: (100

~ 240VAC 50 ~ 60Hz /0.2A)

Power Consumption Max 5.6 VA

(13) Battery Life Approx. 8 hours (When the instrument is used consecutively with the

backlight off with Alkaline cell at the velocity of 5m/s)

(14) Backup Battery Battery Life: Approx. 3 months ····· data and clock backup

(This battery life is for the case where the instrument is not used at all for

3 months. As NiCd battery is used for a backup battery, it is charged every

time it is used.)

(15) Environment Condition

(main unit)

Performance Assurance Temp Range

Storage Temperature Range

~ 40 °C

-10

~ 50 °C

(16) Dimension (main unit) 220 (W) × 85 (D) × 150 (H) mm

(17) Dimension (probe) Model

Config

ration

Cable

0203

φ11 × 208

Teflon coated cable 1.5m

0204

φ14 × 1000

Teflon coated cable 2.3m

Main unit: Approx. 1.8 Kg (inc. dry cell) (18) We ig ht

Probe:

MODEL 0203

MODEL 0204

Approx. 200 g

Approx. 500 g

(19) Accessories

Main Unit (MODEL 6162) (Qty) Shoulder Belt 1 Dry Cell (sizes C Alkaline batteries) 6 AC Adaptor (DC 9V, 660mA) 1 Output Cable (alligator clip for analog output) 2 Operation Manual 1

Probe for Mid Temperature (MODEL 0203) (Qty)

Probe Board

Storage Case for Probe

Connection Cable (Vinyl: Approx. 5m)

Probe for High Temperature (MODEL 0204) (Qty) Probe Board 1 Storage Case for Probe 1 Connection Cable (Vinyl: Approx. 10m) 1 Reagent Bottle, Beaker, Bamboo Brush 1 each

Page 44

7. Measurement Principle

7.1 Principle of Hot-Wire Anemometer

When the heated air velocity sensor is exposed to airflow, the sensor will be cooled. As the sensor temperature changes, the residence value changes accordingly. The faster the velocity is, the greater the residence value changes. Therefore, if how air velocity is proportional to the residence value is understood, air velocity can be calculated using the measured residence value (or electric current).

Our Anemomaster uses this principle. In general, a hot-wire anemometer employs a feedback circuit to keep constant temperature in the sensor area (Constant Temperature Anemometer).

The sensor temperature is kept at constant temperature, and this will not be affected by air velocity. However, the amount of heat drawn from the sensor changes depending on air velocity. In order to compensate the drawn heat, electrical current to be applied to the sensor. Based on the amount of the electrical current (i), the air velocity can be calculated.

The amount of heat [H] that is drawn from the sensor is expressed by:

(

)

(

)

TaTUbaH −+= ----- King’s formula

H: Heat Dissipation T: Sensor Temperature

Ta: Air Temperature U: Air Velocity a, b: Constant

Also, the amount of heat diffusion can be expressed by the following formula;

(R is kept constant regardless of air velocity as the temperature is constant.)

Therefore,

UbaRI +∞

As you can see from this above formula, the change of air velocity [U] can be

seen as the change of the current passed to the sensor [i].

Wind

Sensor (Platinum Coil)

風速素子

電流ｉ

Page 45

7. Measurement Principle

7.2 Temperature Compensation

When the air temperature changes, the amount of heat dissipation changes

accordingly even when the air velocity is constant. By providing a

temperature measurement sensor Rc having the same temperature

coefficient as the air velocity at the opposite side of the bridge, the constant

difference between the air temperature and sensor temperature is kept.

By fixing the bridge constant as described above, the amount of heat

dissipation can bear a constant relation to the air velocity regardless of the

air temperature.

When implementing the temperature compensation sensor, the sensor with

significant resistance value shall be used in order to avoid self-heating due

to the current flow. Consequently, the sensor tends to be big. The more the

sensor is big, the worse the response against the air velocity sensor

becomes. Then, when the air temperature changes rapidly, it becomes

difficult to compensate the temperature. Given this factor, to improve the

response of Model 6261 Anemomaster, sub-bridge is being used. If

feedback is provided to amplifier in order to counterbalance this sub-bridge,

the combined resistance will almost be R(1+r2/r1) when this bridge is

viewed as one resistance. In other words, if r2 << r1 is selected, the

resistance for temperature detection (R) can be relatively small. Therefore,

we managed to keep the temperature detection sensor small, which enables

us to achieve the compensation with good response.

Temperature

Compensation

Air Velocity [U]

Ta1< Ta2

))(( TaTUba −+

[H]

Ta1 Ta

Constant

Output

Air velocity sensor

Air temp. detection bridge

Air temp. sensor

Display

CPU

Page 46

7. Measurement Principle

7.3 Influence by Gas Composition to be Measured

Hot-wire Anemometers indicate air velocity based on the amount of radiation heat

which is the heat quantity deprived from the sensor to fluid. Depending on the fluid

to be measured, the amount of radiation heat varies, and the air velocity reading, too,

will be affected. Since all of the Anemomaster are calibrated in air at the normal

temperature and pressure, the indicated value requires to be compensated when you

measure mixed gas. Therefore, you need to know the physical property value of the

mixed gas beforehand in order to compensate the air velocity of mixed gas.

Below Figure 2 shows how to obtain the heat quantity diffused by the forced

convention from a cylinder (sensor).

Heat Diffusion Quantity Q

Figure 1 Changes in air velocity values

Figure 2 Heat diffusion quantity due to forced convention from a cylinder

flow rate

diameter

nusselt

number

Nu=A×B

amount of radiation heat

(

)

TTNQ −

πλ

length

ℓ

coefficient

viscosity

density

specific heat

thermal

conductivity

kinematic viscosity

coefficient

thermometric

conductivity

prandtl number

r3600

Pr =

reynolds number

=Re

Page 47

7. Measurement Principle

Heat diffusion quantity can be found by;

()

TTNQ −= l

πλ

········ (1)

Q: Heat diffusion quantity N

: Nussselt number π:Circle ratio λ：Thermal conductivity

L: Length of cylinder T: Heating body temp. T

:Gaseous temperature

In order to obtain the property value of mixed gas, obtain the property value of each component. Based on the

mixing ratio, the property value of the mixture can be found. For instance, the specific heat of mixture, C

ｐ

, can be

found by;

YMC

100

111

········ (2)

: Specific heat of mixture Cp1: The specific heat of each component gas

M：Molecular quantity of mixture M

：: Molecular quantity of each component gas

：: Volume percentage of each component gas

As each property value is temperature function and Nusselt number, N

, is function of flow velocity (U), heat

diffusion quantity in the mixed gas (Q

) can be find by obtaining the air temperature, Ta, and the reference air

velocity, U

using the above equation (1). Given that the Qa is equivalent to the diffusion quantity in the air, the air

velocity value, U

, can be obtained. With U0 and UM, the air velocity compensation table for the mixed gas can be

obtained.

Below is and example graph for air velocity compensation.

10 20 30 40 50

Air Temp. 100˚C

Air Temp. 300˚C

Air Temp. 500˚C

Component Mixing Ratio %

N2 74.0

H2O 11.5

O2 3.5

CO 11.0

Velocity Reading U

m/3

Reference Velocity Value U0 m/β

Figure 3 Example Graph for Air Velocity Compensation

Page 48

8. Troubleshooting

* Before you send the unit for repairs, please check the followings once again.

8.1 Checking Power Source

No. Symptom Possible Cause / Solution Refer to

Even when your turn the power switch ON, nothing is displayed.

- The batteries may be drained. ⇒ Need new batteries.

Page

Although batteries are used, nothing is displayed on the screen.

- The brightness adjustment has not been done properly. ⇒ Adjust the brightness by the volume.

Page 2

The dry cell dies faster than the specification.

- The polarity of the batteries are not correct. ⇒ Check the batteries.

Page

4. The display screen blinks.

- It shows that the batteries are drained. ⇒ Need new batteries. Press BATT key and check the remaining level of the batteries.

Page

8.2 Checking the Initial Operation

No. Symptom Possible Cause / Solution Refer to

1. The display screen is dark or pale.

- The brightness adjustment has not been done properly. ⇒ Adjust the brightness by the volume. Ambient temperature affects the brightness.

Page 2

2. The backlight is not ON.

- In a bright place it is sometimes difficult to check if the backlight is ON. ⇒ RIGHT Switch ON

Page 2

When the instrument is turned ON, it goes to calculation mode automatically and “ready” is displayed.

- Calculation program is set. ⇒ PROGRAM OFF

Page

Even if I select MEASUREMENT in the menu, the calculation mode selection screen does not display. In stead measurement condition setting screen displays.

- Calculation program is set. ⇒ PROGRAM OFF

Page

“PROBE” keeps to be displayed on the screen.

- Probe is not connected. ⇒ Connect a probe.

Page

Page 49

8. Troubleshooting

8.3 During a Measurement

No. Symptom

Possible Cause / Solution Refer to

The displayed measurement value is abnormal.

1. Ex) Air Velocity:

Air Temp:

**.*

0.0

- If a measurement is performed out of the spec range, “over” will be displayed on the screen.

- Probe sensor may be damaged.

While measuring, the display screen starts blinking.

- The batteries are drained.

⇒ Need new batteries.

Page

Data cannot be stored in the internal memory.

- Setting has not been configured properly.

⇒ MEMORY YES

Chapter

4. The response of the reading is slow.

- Moving average deviations is selected.

⇒ FAST/SLOW key

Page 9

8.4 Analog Output

No. Symptom

Possible Cause / Solution Refer to

1. No output.

- Output only on the initial screen or when

measuring in the measurement mode?

- The screen is on hold.

The output value is wrong. - The output range is wrong.

Page

8.5 Digital Output

No. Symptom

Possible Cause / Solution Refer to

1. DEVICE ERROR is displayed. - The cable’s wire connection is not correct. Page 34

2. Data cannot be collected.

- The host computer’s setting is not properly

configured.

- Baud rate setting is not correct.

Page 32

3. Data is wrong. - Output format is not correct.

Page

33, 35

8.6 Printer

No. Symptom

Possible Cause / Solution Refer to

1. The printer turns OFF while printing. - The printer’s NiCd battery is drained.

2. Cannot take a hardcopy of the screen.

- The screen may not be on hold.

⇒ Put the screen on hold.

- You may be trying to take a hardcopy while

measuring. ⇒ After the calculation, try again.

Page

Chapter

There is not print output after calculation.

- Setting has not been configured properly.

⇒ PRINT YES

Chapter

Page 50

9. Warranty and After-sales Service

KANOMAX Limited Warranty

The limited warranty set below is given by KANOMAX with respect to the KANOMAX brand Anemomaster Model

6162, its attachment parts including Probe and other accessories (hereafter referred to as “PRODUCT”) that you have

purchased. PRODUCT you have purchased shall be the only one that the limited warranty stated herein applies to.

Your PRODUCT, when delivered to you in new condition in its original container, is warranted against defects in

materials or workmanship as follows: for a period of one (1) year from the date of original purchase, defective parts or a

defective PRODUCT returned to your sales representative, as applicable, and proven to be defective upon inspection,

will be exchanged for a new or comparable rebuilt parts, or a refurbished PRODUCT as determined by your sales

representative. Warranty for such replacements shall not extend the original warranty period of the defective

PRODUCT.

This limited warranty covers all defects encountered in normal use of the PRODUCT, and does not apply to the

following cases:

(1) Use of parts or supplies other than the PRODUCT sold by your sales representative, which cause damage to the

PRODUCT or cause abnormally frequent service calls or service problems.

(2) If any PRODUCT has its serial number or date altered or removed.

(3) Loss of damage to the PRODUCT due to abuse, mishandling, improper packaging by the owner, alteration,

accident, electrical current fluctuations, failure to follow operating, maintenance or environmental instructions

prescribed in the PRODUCT's instruction manual provided by KANOMAX, or service performed by other than

KANOMAX.

NO IMPLIED WARRANTY, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY OR

FITNESS FOR A PARTICULAR PURPOSE, APPLIES TO THE PRODUCT AFTER THE APPLICABLE

PERIOD OF THE EXPRESS LIMITED WARRANTY STATED ABOVE, AND NO OTHER EXPRESS

WARRANTY OR GUARANTY, EXCEPT AS MENTIONED ABOVE, GIVEN BY ANY PERSON OR ENTITY

WITH RESPECT TO THE PRODUCT SHALL BIND KANOMAX. KANOMAX SHALL NOT BE LIABLE

FOR LOSS OF STORAGE CHARGES, LOSS OR CORRUPTION OF DATA, OR ANY OTHER SPECIAL,

INCIDENTAL OR CONSEQUENTIAL DAMAGES CAUSED BY THE USE OR MISUSE OF, OR INABILITY

TO USE, THE PRODUCT, REGARDLESS OF THE LEGAL THEORY ON WHICH THE CLAIM IS BASED,

AND EVEN IF KANOMAX HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. IN NO

EVENT SHALL RECOVERY OF ANY KIND AGAINST KANOMAX BE GREATER IN AMOUNT THAN

THE PURCHASE PRICE OF THE PRODUCT SOLD BY KANOMAX AND CAUSING THE ALLEGED

DAMAGE. WITHOUT LIMITING THE FOREGOING, THE OWNER ASSUMES ALL RISK AND

LIABILITY FOR LOSS, DAMAGE OF, OR INJURY TO THE OWNER AND THE OWNER'S PROPERTY

AND TO OTHERS AND THEIR PROPERTY ARISING OUT OF USE OR MISUSE OF, OR INABILITY TO

USE, THE PRODUCT NOT CAUSED DIRECTLY BY THE NEGLIGENCE OF KANOMAX. THIS LIMITED

WARRANTY SHALL NOT EXTEND TO ANYONE OTHER THAN THE ORIGINAL PURCHASER OF THE

PRODUCT, OR THE PERSON FOR WHOM IT WAS PURCHASED AS A GIFT, AND STATES THE

PURCHASER'S EXCLUSIVE REMEDY.

Page 51

9. Warranty and After-sales Service

After-sales Service

If the PRODUCT is malfunctioning, please check with “Troubleshooting” to find possible cause first.

Repair parts are retained for a minimum period of five (5) years after production cessation of the PRODUCT.

This storage period of repair parts is considered as the period during which KANOMAX can provide repair

service.

For more information, please contact your sales representative. When you make a call, please have the

following information of your PRODUCT at hand:

(1) PRODUCT name;

(2) Model number;

(3) Serial number;

(4) Probe number;

(5) Description of Symptom, and;

(6) Date of purchase

Page 52

10. Contact Information

JAPAN & ASIA

KANOMAX JAPAN INC.

2-1 Shimizu, Suita City, Osaka, 565-0805, Japan

TEL: 81-6-6877-0183

FAX: 81-6-6879-5570

URL:

http://www.kanomax.co.jp/

E-Mail:

sales@kanomax.co.jp

USA & EUROPE

KANOMAX USA INC.

PO Box 372, 219 Hwy. Route 206, Andover, NJ 07821, U.S.A.

TEL: (800)-247-8887 / (973)-786-6386 FAX: (973)-786-7586

URL:

http://www.kanomax-usa.com/

E-Mail:

info@kanomax-usa.com

CHINA

Shenyang Kano Scientific Instrument Co., Ltd

No. 12, 4 Jia Wencui Road Heping District

Shenyang City, PRC

TEL: 86-24-23845309 FAX: 86-24-23898417

URL:

http://www.kanomax.com.cn/

E-mail:

sales@kanomax.com.cn

Kanomax Anemomaster 6162 Operation Manual

Specifications and Main Features

Frequently Asked Questions

User Manual