Instruction Manual
HI 96769C
Anionic Surfactants ISM
www.hannainst.com
This Instrument is in
Compliance with the CE Directives
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Dear Customer,
Thank you for choosing a Hanna product. This manual will provide you with the necessary
information for the correct use of the instrument. Please read it carefully before using the meter. If
you need additional technical information, do not hesitate to e-mail us at tech@hannainst.com.
This instrument is in compliance with
directives.
TABLE OF CONTENTS
PRELIMINARY EXAMINATION .............................................................................................. 4
GENERAL DESCRIPTION ..................................................................................................... 5
ABBREVIATIONS ................................................................................................................ 5
SPECIFICATIONS................................................................................................................. 6
PRECISION AND ACCURACY ................................................................................................ 6
PRINCIPLE OF OPERATION ................................................................................................. 7
FUNCTIONAL DESCRIPTION ................................................................................................ 8
ERRORS AND WARNINGS ................................................................................................10
GENERAL TIPS FOR AN ACCURATE MEASUREMENT ........................................................... 12
STARTUP...................................................................................................................13
MEASUREMENT PROCEDURE ...........................................................................................14
VALIDATION PROCEDURE ................................................................................................. 18
CALIBRATION PROCEDURE ...............................................................................................20
GLP...........................................................................................................................23
BATTERY MANAGEMENT ..................................................................................................24
BATTERY REPLACEMENT ..................................................................................................24
ACCESSORIES .................................................................................................................25
WARRANTY .................................................................................................................26
All rights are reserved. Reproduction in whole or in part is prohibited without the written consent of the copyright owner,
Hanna Instruments Inc., Woonsocket, Rhode Island, 02895 , USA.
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PRELIMINARY EXAMINATION
Please examine this product carefully. Make sure that the instrument is not damaged. If any
damage occurred during shipment, please notify your Dealer.
Each HI 96769 Ion Selective Meter is supplied complete with:
• Two Sample Cuvets and Caps
• One long glass vial (25 mL) with cap
• Three plastic pipettes
• 9V Battery
• Tissue for wiping cuvets
• Instrument quality certificate
• Instruction Manual
• Rigid carrying case
Note:Save all packing material until you are sure that the instrument works correctly. Any
defective item must be returned in its original packing.
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GENERAL DESCRIPTION
The HI 96769 is an auto diagnostic portable microprocessor meter that benefits from Hanna’s
years of experience as a manufacturer of analytical instruments. It has the advanced optical
system based on a special tungsten lamp and a narrow band interference filter that allows most
accurate and repeatable readings. All instruments are factory calibrated and the electronic and
optical design minimizes the need of frequent calibration.
With the powerful CAL CHECK
of your instrument at any time. The validation procedure is extremely user friendly. Just use the
exclusive HANNA ready-made, NIST traceable standards to verify the performance of the
instrument and recalibrate if necessary.
All instruments are splash waterproof and the lamp and filter units are protected from dust or dirt
by a transparent cup. This makes the instruments fulfill field applications. Display messages aid
the user in routine operation. The meter has an auto-shut off feature that will turn off the
instrument after 10 minutes of non use in measurement mode or after 1 hour if left in
calibration mode.
The meter uses an exclusive positive-locking system to ensure that the cuvet is in the same
position every time it is placed into the measurement cell. It is designed to fit a cuvet with a
larger neck making it easier to add both sample and reagents. The cuvet is made from special
optical glass to obtain best results.
The HI 96769 meter measures the Anionic surfactants in the 0.00 to 3.50 mg/L (ppm) range,
in drinking, surface and waste waters. The method is an adaptation of the USEPA method 425.1
and Standard Methods for the Examination of Water and Wastewater, 20
Anionic Surfactants as MBAS.
The reagent is in liquid form and is supplied in bottles. The amount of reagent is precisely dosed
by use of the supplied pipettes to ensure the maximum repeatability.
TM
validation function, you are able to validate good performance
th
edition, 5540C,
°C:
USEPA:
°F:
mg/L:
mL:
mV:
LCD:
SDBS:
ABBREVIATIONS
degree Celsius
US Environmental Protection Agency
degree Fahrenheit
milligrams per liter. mg/L is equivalent to ppm (part per million)
milliliter
millivolts
Liquid Crystal Display
Sodium Dodecyl Benzene Sulfonate
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SPECIFICATIONS
Range 0.00 to 3.50 mg/L (as SDBS)
Resolution 0.01 mg/L
Precision ±0.04 mg/L @ 1.00 mg/L
Typical EMC Deviation ±0.01 mg/L
Light Source Tungsten lamp
Light Detector Silicon Photocell with narrow band interference filter @ 610 nm
Method Adaptation of the USEPA method 425.1 and Standard Methods for the
Examination of Water and Wastewater, 20
Surfactants as MBAS.
Environment 0 to 50°C (32 to 122°F); max 95% RH non-condensing
Battery Type 1 x 9 volt
Auto-Shut off After 10' of non-use in measurement mode;
after 1 hour of non-use in calibration mode;
with last reading reminder.
Dimensions 192 x 102 x 67 mm (7.6 x 4 x 2.6")
Weight 290 g (10 oz.).
REQUIRED REAGENTS
Code Description Quantity/test
HI 95769A-0 Anionic Surfactants Reagent A 4 drops
HI 95769B-0 Anionic Surfactants Reagent B 2 drops
Chloroform 10 mL
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edition, 5540C, Anionic
PRECISION AND ACCURACY
Precision is how closely repeated measurements
agree with each other. Precision is usually
expressed as standard deviation (SD).
Accuracy is defined as the nearness of a test
result to the true value.
Although good precision suggests good accuracy,
precise results can be inaccurate. The figure
explains these definitions.
In laboratory using a standard solution of 1.00
mg/L SDBS and a representative lot of reagents,
an operator obtained with a single instrument a
standard deviation of 0.04 mg/L.
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PRINCIPLE OF OPERATION
Absorption of Light is a typical phenomenon of interaction between electromagnetic radiation and
matter. When a light beam crosses a substance, some of the radiation may be absorbed by
atoms, molecules or crystal lattices.
If pure absorption occurs, the fraction of light absorbed depends both on the optical path length
through the matter and on the physical-chemical characteristics of the substance according to the
Lambert-Beer Law:
-log I/I
Where:
-log I/I
= Absorbance (A)
o
Io= intensity of incident light beam
I = intensity of light beam after absorption
ε
= molar extinction coefficient at wavelength λ
λ
c = molar concentration of the substance
d = optical path through the substance
Therefore, the concentration "c" can be calculated from the absorbance of the substance as the
other factors are known.
Photometric chemical analysis is based on the possibility to develop an absorbing compound
from a specific chemical reaction between sample and reagents. Given that the absorption of a
compound strictly depends on the wavelength of the incident light beam, a narrow spectral
bandwidth should be selected as well as a proper central wavelength to optimize measurements.
The optical system of Hanna's HI 96 series colorimeters is based on special subminiature
tungsten lamps and narrow-band interference filters to guarantee both high performance and
reliable results.
= ελ c d
o
or
A = ελ c d
HI 96 series block diagram (optical layout)
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A microprocessor controlled special tungsten lamp emits radiation which is first optically
conditioned and beamed to the sample contained in the cuvet. The optical path is fixed by the
diameter of the cuvet. Then the light is spectrally filtered to a narrow spectral bandwidth, to
obtain a light beam of intensity Io or I.
The photoelectric cell collects the radiation I that is not absorbed by the sample and converts
it into an electric current, producing a potential in the mV range.
The microprocessor uses this potential to convert the incoming value into the desired measuring
unit and to display it on the LCD.
The measurement process is carried out in two phases: first the meter is zeroed and then the
actual measurement is performed.
The cuvet has a very important role because it is an optical element and thus requires particular
attention. It is important that both, the measurement and the calibration (zeroing) cuvets, are
optically identical to provide the same measurement conditions. Whenever possible use the same
cuvet for both. It is necessary that the surface of the cuvet is clean and not scratched. This to
avoid measurement interference due to unwanted reflection and absorption of light. It is
recommended not to touch the cuvet walls with hands.
Furthermore, in order to maintain the same conditions during the zeroing and the measuring
phases, it is necessary to close the cuvet to prevent any contamination.
FUNCTIONAL DESCRIPTION
INSTRUMENT DESCRIPTION
1) GLP/ key
2) CAL CHECK key
3) ZERO/CFM key
4) READ/
5) ON/OFF key
6) Liquid Cristal Display (LCD)
7) Cuvet alignment indicator
8) Cuvet holder
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/TIMER key
KEYPAD DESCRIPTION
• ON/OFF: to turn the meter on and off.
• ZERO/CFM: to zero the meter prior to measurement, to confirm edited values or to confirm
factory calibration restore.
• READ/
/TIMER: this is a multi-functional key. In measurement mode, press to make a
measurement, or press and hold for three seconds to start a pre-programmed countdown prior
to measurement. In GLP mode press to view the next screen.
• CAL CHECK: this is a bi-functional key. Just press to perform the validation of the meter, or
press and hold for three seconds to enter calibration mode.
• GLP/
: this is a bi-functional key. Just press to enter GLP mode. In calibration mode press
to edit the date and time.
OPERATING MODES
• Measurement mode: default operation mode, enables both validation and measurement.
• Calibration mode: may be entered by keeping CAL CHECK pressed for three seconds (the
“CAL” tag appears), it enables calibration of the instrument.
• GLP mode may be entered by pressing GLP/
(“GLP” appears), it enables consulting of
user calibration date or restore factory calibration.
DISPLAY ELEMENTS DESCRIPTION
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3
2
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9
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1) The measuring scheme (lamp, cuvet, detector), appears during different phases of zero or
reading measurement
2) Error messages and warnings
3) The battery icon shows the charging level of the battery
4) The hourglass appears when an internal checking is in progress
5) Status messages
6) The chronometer appears when the reaction timer is running
7) The month, day and date icons appear when a date is displayed
8) Four digit main display
9) Measuring units
10) Four digit secondary display
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ERRORS AND WARNINGS
The instrument shows clear messages when erroneous condition appears. Messages are also displayed
when the obtained values are outside expected range. The beeper is playing a beep on errors.
a) on zero reading
Light High: There is too much light to perform a measurement.
Please check the preparation of the zero cuvet.
Light Low: There is not enough light to perform a measurement.
Please check the preparation of the zero cuvet.
No Light:The instrument cannot adjust the light level. Please
check that the samples does not contain any debris.
b) on sample reading
Inverted cuvets: The sample and the zero cuvet are inverted.
Zero: A zero reading was not taken. Follow the instructions of
the measurement procedure for zeroing the meter.
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c) during calibration procedure
Under range: A blinking “0.00” indicates that the sample
absorbs less light than the zero reference. Check the procedure
and make sure you use the same cuvet for reference (zero) and
measurement.
Over Range: A flashing value of the maximum concentration
indicates an over range condition. The concentration of the
sample is beyond the programmed range: dilute the sample and
re-run the test.
Standard Low: The standard reading is less than expected.
Standard High: The standard reading is higher than expected.
d) other errors and warnings
Cap error: Appears when external light enters in the analysis
cell. Assure that the cuvet cap is present.
Cooling lamp: The instrument waits for the lamp to cool down.
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Battery low: The battery must be replaced soon.
Dead battery: This indicates that the battery is dead and must
be replaced. Once this indication is displayed, the meter will
lock up. Change the battery and restart the meter.
GENERAL TIPS FOR AN ACCURATE MEASUREMENT
The instructions listed below should be carefully followed during testing to ensure best accuracy.
• For adding the exact amount of sample and deionized
water to the cuvet it is strongly recommended to use two
class A laboratory pipettes.
• Alternatively, fill the cuvet up to the 10 mL mark: the
liquid in the cuvet forms a concavity on the top; the
bottom of this concavity must be at the same level of the
10 mL mark.
• Proper use of dropper:
(a) to get good reproducible results, tap the dropper on the table for several times and wipe
the outside of the dropper with a cloth.
(b) always keep the dropper bottle in a vertical position while dosing the reagent.
class A pipette
(a) (b)
• Color or suspended matter in large amounts may cause interference, therefore these should
be removed by treatment with active carbon and by prior filtration.
• It is important that the sample does not contain any debris. This would corrupt the reading.
• Each time the cuvet is used, the cap must be tightened to the same degree.
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• In order to avoid reagent leaking and to obtain more accurate
measurements, it is recommended to close the cuvet first with
the supplied HPDE plastic stopper and then with the black
cap.
• Whenever the cuvet is placed into the measurement cell, it
must be dry outside, and completely free of fingerprints, oil
or dirt. Wipe it thoroughly with HI 731318 or a lint-free
cloth prior to insertion.
• Shaking the cuvet can generate bubbles in the sample, causing higher readings. To obtain
accurate measurements, remove such bubbles by swirling or by gently tapping the cuvet.
• Do not let the reacted sample stand too long after reagent is added, or accuracy will be lost.
• It is possible to take multiple readings in a row, but it is recommended to take a new zero
reading for each sample and to use the same cuvet for zeroing and measurement.
• After the reading it is important to discard immediately the sample, otherwise the glass
might become permanently stained.
• All the reaction times reported in this manual are referred to 20°C (68°F). As a general rule
of thumb, they should be doubled at 10°C (50°F) and halved at 30°C (86°F).
• In order to maximize accuracy, prior to a measurement follow the validation procedure to
be sure that the instrument is properly calibrated. If necessary, calibrate the instrument.
STARTUP
Prepare the instrument for measurement as follows:
• Unpack the instrument by removing the dust protection sleeve from the instrument cuvet holder.
• Place the battery in the instrument as described in the “BATTERY REPLACEMENT” chapter.
• Place the instrument on a flat table.
• Do not place the instrument under direct sun light.
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MEASUREMENT PROCEDURE
• Turn the meter on by pressing ON/OFF.
The display briefly shows all tags on.
• When the beeper sounds briefly and the
LCD displays dashes, the meter is ready.
The blinking “ZERO” indicates that the
instrument needs to be zeroed first.
• Fill the graduated glass vial with 25 mL
of sample.
For most accurate results, use of a class A
laboratory pipette is strongly recommended.
Alternatively, it is possible to use the
plastic pipette, to fill the glass vial up to
the 25 mL mark.
• Add 2 drops of HI 95769A-0 Anionic
Surfactants Reagent A and 2 drops of HI
95769B-0 Anionic Surfactants Reagent
B.
• Close the glass vial with its cap and
invert to mix. The solution will turn blue.
• Add exactly 10 mL of Chloroform reagent.
For most accurate results, use a class A
glass laboratory pipette is strongly
recommended.
Alternatively, it is possible to use another
clean plastic pipette to fill the vial up to
the 10 mL mark.
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Notes: Chloroform is heavier than water
thus it will sink to the bottom of the
graduated glass vial;
Do not mix up the pipettes.
• Close tightly the glass vial with its cap
and shake it
Note: Block the cap with a finger during
shaking.
• Press and hold READ/ /TIMER for three
seconds and the display will show the
countdown. The beeper is playing a beep
at the end of countdown period.
Alternatively, wait for 2 minutes leaving
the vial capped and undisturbed
During this period, the chloroform layer
separates from the aqueous layer: the
color of the aqueous layer will fade
slightly if anionic surfactants are present,
while the chloroform layer will turn blue.
vigorously for 30 seconds.
• Remove the cap.
• Using the long plastic pipette, remove
the upper aqueous layer and discard.
Do not remove the lower chloroform
layer.
• Add to the vial about 15 mL of deionized
water, up to the 25 mL mark.
• Add 2 drops of HI 95769A-0 Anionic
Surfactants Reagent A.
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• Close tightly the glass vial with its cap
and shake it vigorously for 30 seconds.
Note: Block the cap with a finger during
shaking.
• Press and hold READ/
seconds and the display will show the
countdown. The beeper is playing a beep
at the end of countdown period.
Alternatively, wait for 2 minutes leaving
the vial capped and undisturbed
During this period, the chloroform layer
separates from the aqueous layer.
• Remove the cap.
• Insert a
• The solution in the cuvet must be limpid.
• If the solution is clouded, you can improve separation between the chloroform and aqueous
layers by gently warming the cuvet (for instance by holding the cuvet in the hand).
clean plastic pipette below the
upper aqueous layer to transfer only the
lower chloroform layer into a cuvet paying
attention not to transfer the upper aqueous
layer too.
/TIMER for three
• If the chloroform layer contains some aqueous drops hanging on the cuvet wall, gently
swirl or invert the cuvet.
• It is important to transfer at least 7 mL of chloroform layer into the measurement cuvet,
thus up to 0.5 cm (1/4”) below the 10 mL mark. If the transferred volume is lower than 7 mL,
the accuracy of the test may be affected. Please repeat the test waiting for longer than 2
minutes, to allow complete separation between the two phases.
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• Cap the cuvet. This is the reacted sample
(#2).
• Fill another cuvet with 10 mL of
Chloroform reagent up to the 10 mL
mark and place the cap. This is the blank
(#1).
• Place the blank (cuvet #1) into the
cuvet holder and ensure that the notch on
the cap is positioned securely into the
groove.
• Press ZERO/CFM and the lamp, cuvet
and detector icons will appear on the
display, depending on the measurement
phase.
• After a few seconds, the display will show
“-0.0-”. The meter is now zeroed and
ready for measurement.
• Remove the cuvet.
• Place the reacted sample (cuvet #2)
into the cuvet holder and ensure that the
notch on the cap is positioned securely
into the groove.
• Press READ/
and detector icons will appear on the
display, depending on the measurement
phase.
/TIMER. The lamp, cuvet
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• At the end of measurement, the instrument
directly displays concentration in mg/L
(ppm) of anionic surfactants (MBAS) as
SDBD on the LCD.
CONVERSION FACTORS
The anionic detergent content is expressed as mg/L of SDBS .
Convert the reading to mg/L (ppm) of a different anionic detergent concentration (DX) of known
molecular weight (MW
), as follows:
DX
DX (mg/L) =
Reading (mg/L SDBS) x MW
DX
348.48
INTERFERENCES
Cationic surfactants negative interference
Absorption particulate matter negative interference
Sulfide negative interference
Organic sulfates, sulfonates positive interference
Strong oxidants (Cl2, H2O2, S2O
2-
, etc.) negative interference
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Highly buffered samples or with extreme pH may exceed the buffering capacity of the reagent:
pH should be adjusted between 4 and 9 with diluted NaOH for acidic samples or with diluted
HCl for alkaline samples, prior to addition of the reagent.
VALIDATION PROCEDURE
Use the validation procedure to ensure that the instrument is properly calibrated.
Warning: Do not validate the instrument with any standard solutions other than the HANNA CAL
CHECKTM Standards, otherwise erroneous results will be obtained. For accurate validation, please
perform test at room temperature: 18 to 25°C (64.5 to 77.0°F)
Turn the meter on by pressing ON/OFF.
•
• When the beeper sounds briefly and the
LCD displays dashes, the meter is ready.
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• Place the CAL CHECKTM Standard
HI 95769-11 Cuvet A into the cuvet
holder and ensure that the notch on the
cap is positioned securely into the groove.
• Press ZERO/CFM and the lamp, cuvet
and detector icons will appear on the
display, depending on the measurement
phase.
• After a few seconds, the display will show
“-0.0-”. The meter is now zeroed and
ready for validation.
• Remove the cuvet.
TM
• Place the CAL CHECK
Standard
HI 95769-11Cuvet B into the cuvet holder
and ensure that the notch on the cap is
positioned securely into the groove.
• Press CAL CHECKTM and the lamp, cuvet
and detector icons together with “CAL
CHECK” will appear on the display,
depending on the measurement phase.
• At the end of the measurement the display
will show the validation standard value.
The reading should be within specifications as reported in the CAL CHECK
TM
Standard
Certificate. If the value is found out of the specifications, please check that the cuvets are free
of fingerprints, oil or dirt and repeat validation. If results are still found out of specifications,
then recalibrate the instrument.
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CALIBRATION PROCEDURE
Note: It is possible to interrupt calibration procedure at any time by pressing CAL CHECK or
ON/OFF keys.
Warning: Do not calibrate the instrument with standard solutions other than the HANNA CAL
TM
Standards, otherwise erroneous results will be obtained. For accurate validation, please
CHECK
perform test at room temperature: 18 to 25°C (64.5 to 77.0°F)
• Turn the meter on by pressing ON/OFF.
• When the beeper sounds briefly and the
LCD displays dashes, the meter is ready.
• Press and hold CAL CHECK for three
seconds to enter calibration mode. The
display will show “CAL” during
calibration procedure. The blinking
“ZERO” asks for instrument zeroing.
• Place the CAL CHECKTM Standard
HI 95769-11 Cuvet A into the cuvet
holder and ensure that the notch on the
cap is positioned securely into the groove.
• Press ZERO/CFM and the lamp, cuvet
and detector icons will appear on the
display, depending on the measurement
phase.
• After a few seconds the display will show
“-0.0-”. The meter is now zeroed and
ready for calibration. The blinking “READ”
asks for reading calibration standard.
• Remove the cuvet.
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• Place the CAL CHECKTM Standard
HI 95769-11 Cuvet B into the cuvet
holder and ensure that the notch on the
cap is positioned securely into the groove.
• Press READ/ /TIMER and the lamp,
cuvet and detector icons will appear on
the display, depending on the
measurement phase.
• After measurement the instrument will show
for three seconds the Cal Check Standard value.
Note: If the display shows “STD HIGH”, the
standard value was too high. If the display
shows “STD LOW”, the standard value
was too low. Verify that both CAL
CHECKTM Standards HI 95769-11 Cuvets,
A and B are free from fingerprints or dirt
and that they are inserted correctly.
• Then the date of the last calibration
(e.g.: ”01.08.2005”) appears on the
display, or “01.01.2005” if the factory
calibration was selected before. In both
cases the year number is blinking, ready
for date input.
DATE INPUT
• Press GLP/ to edit the desired year
(2000-2099). If the key is kept pressed,
the year number is automatically
increased.
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• When the correct year has been set, press
ZERO/CFM or READ/ /TIMER to
confirm. Now the display will show the
month blinking.
• Press GLP/ to edit the desired month
(01-12). If the key is kept pressed the
month number is automatically increased.
• When the correct month has been set,
press ZERO/CFM or READ/
to confirm. Now the display will show
the day blinking.
• Press GLP/ to edit the desired day
(01-31). If the key is kept pressed the
day number is automatically increased.
Note: It is possible to change the editing
from day to year and to month by pressing
READ/ /TIMER.
/TIMER
or
or
• Press ZERO/CFM to save the calibration
date.
• The instrument displays “Stor” for one
second and the calibration is saved.
• The instrument will return automatically
to the measurement mode by displaying
dashes on the LCD.
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GLP
In the GLP mode, the last user calibration date can be consulted and the factory calibration can
be restored.
LAST CALIBRATION DATE
To display the calibration date:
• Press GLP/ to enter GLP mode. The
calibration month and day will appear on
the main display and the year on the
secondary display.
• If no calibration was performed, the
factory calibration message, “F.CAL” will
appear on the main display and the
instrument returns to measurement mode
after three seconds.
FACTORY CALIBRATION RESTORE
It is possible to delete the calibration and
restore factory calibration.
• Press GLP/ to enter GLP mode.
• Press READ/ /TIMER to enter in the
factory calibration restore screen. The
instrument asks for confirmation of user
calibration delete.
• Press ZERO/CFM to restore the factory
calibration or press GLP/ again to
abort factory calibration restore.
• The instrument briefly notifies “done”
when restores factory calibration and
returns to measurement mode.
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BATTERY MANAGEMENT
To save battery, the instrument shuts down after 10 minutes of non-use in measurement mode
and after 1 hour of non-use in calibration mode.
If a valid measurement was displayed before
auto shut off, the value is displayed when
the instrument is switched on. The blinking
“ZERO” means that a new zero has to be
performed.
One fresh battery lasts for around 750 measurements, depending on the light level.
The remaining battery capacity is evaluated at the instrument startup and after each measurement.
The instrument displays a battery indicator with three levels as follows:
• 3 lines for 100 % capacity
• 2 lines for 66 % capacity
• 1 line for 33 % capacity
• Battery icon blinking if the capacity is under 10 %.
If the battery is empty and accurate measurements can’t be taken anymore, the instrument
shows “dead batt” and turns off.
To restart the instrument, the battery must be replaced with a fresh one.
BATTERY REPLACEMENT
To replace the instrument’s battery, follow the steps:
• Turn the instrument off by pressing ON/OFF.
• Turn the instrument upside down and remove the battery cover by turning it counterclockwise.
• Extract the battery from its location and replace it with a fresh one.
• Insert back the battery cover and turn it clockwise to close.
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ACCESORIES
REAGENT SET
HI 93769-01 Reagents for 40 Anionic Surfactants tests
OTHER ACCESORIES
HI 95769-11 CAL CHECKTM Standard Cuvets (1 set)
HI 70000P 20 mL Deionized rinse solution (25 pcs)
HI 740220 25 mL glass test tubes with caps (2 pcs)
HI 721310 9V battery (10 pcs.)
HI 731318 Tissue for wiping cuvets (4 pcs.)
HI 731331 Glass cuvets (4 pcs.)
HI 731335 Caps for cuvets
HI 93703-50 Cuvets cleaning solution (230 mL)
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WARRANTY
HI 96769 is warranted for two years against defects in workmanship and materials when used
for its intended purpose and maintained according to the instructions.
This warranty is limited to repair or replacement free of charge.
Damages due to accident, misuse, tampering or lack of prescribed maintenance are not covered.
If service is required, contact your dealer. If under warranty, report the model number, date of
purchase, serial number and the nature of the failure. If the repair is not covered by the warranty,
you will be notified of the charges incurred.
If the instrument is to be returned to Hanna Instruments, first obtain a Returned Goods Authorization
Number from the Customer Service Department and then send it with shipment costs prepaid.
When shipping any instrument, make sure it is properly packaged for complete protection.
To validate your warranty, fill out and return the enclosed warranty card within 14 days from the
date of purchase.
Recommendations for Users
Before using these products, make sure that they are entirely suitable for your specific application and for the environment in
which they are used.
Operation of these instruments may cause unacceptable interferences to other electronic equipments, this requiring the operator
to take all necessary steps to correct interferences.
Any variation introduced by the user to the supplied equipment may degrade the instruments' EMC performance.
To avoid damages or burns, do not put the instrument in microwave oven. For yours and the instrument safety do not use or
store the instrument in hazardous environments.
Hanna Instruments reserves the right to modify the design, construction and appearance of its
products without advance notice.
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www.hannainst.com
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MAN96769 03/06
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