Hach DR 1900 Basic User Manual

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DOC022.97.80343
DR 1900
02/2014, Edition 1
Basic User Manual
Manuel d'utilisation de base
Manual básico del usuario
Manual Básico do Usuário
基本用户手册
基本取扱説明書
기본 사용 설명서
คูมือผูใชเบื้องตน
English..............................................................................................................................
3
Français.........................................................................................................................16
Español..........................................................................................................................30
Português......................................................................................................................44
中文.................................................................................................................................58
日本語.............................................................................................................................71
한글.................................................................................................................................85
ไทย....................................................................................................................................98
2
Table of contents
Specifications on page 3 Startup on page 10
General information on page 4 Standard operation on page 11
Installation on page 6 Maintenance on page 14
User interface and navigation on page 8 Troubleshooting on page 15
Additional information
Additional information is available on the manufacturer's website.
Specifications
Specifications are subject to change without notice.
Specification Details
Measurement method VIS spectrophotometer for HACH and HACH LANGE water analysis
methods
Measurement mode Transmittance (%), Absorbance (Abs) and Concentration (Conc)
Dimensions (W x D x H) 178 x 261 x 98 mm (7.0 x 10.3 x 3.8 in.)
Enclosure rating IP67 (closed sample cell cover)
Weight 1.5 kg (3.3 Ib)
Power requirements (internal) AA size Alkaline (4x) or
rechargeable Nickel Metal Hydride (NiMH) batteries (4x) (optional module
necessary
1
)
Power requirements (external) Power supply: 110–240 VAC; 50/60 Hz (optional module necessary
1
)
Interface USB mini (optional module necessary
1
)
Operating temperature 10 to 40 °C (50 to 104 °F); maximum 80% relative humidity (non-
condensing)
Storage temperature –30 to 60 °C (–30 to140 °F); maximum 80% relative humidity (non-
condensing)
Lamp source Xenon flash
Wavelength range 340–800 nm
Photometric measuring range ±3.0 Abs (wavelength range 340–800 nm)
Wavelength accuracy ±2 nm (wavelength range 340–800 nm)
Spectral bandwidth 5 nm
Photometric accuracy 3 mAbs at 0.0 to 0.5 Abs, 1% at 0.50 to 2.0 Abs
Photometric linearity < 0.5% to 2 Abs
≤ 1% at > 2 Abs with neutral glass at 546 nm
Wavelength selection Automatic, based on the method selection
Stray light < 0.5% T at 340 nm with NaNO
2
Repeatability ± 0.1 nm
Wavelength resolution 1 nm
English 3
Specification Details
User programs (free programming) 50
Data logger 500 measured values (result, date, time, sample ID, user ID to GLP (Good
Laboratory Practice))
Sample cells 10 x 10 mm, 1 inch rectangular, 13 mm/16 mm/1 inch round, 1 cm/10 mL,
Flow-thru cell
Protection class Power supply: Class II, instrument: Class III
Certifications CE certified
Warranty 1 year (EU: 2 years)
1
Additional information is available on the manufacturer's website.
General information
In no event will the manufacturer be liable for direct, indirect, special, incidental or consequential
damages resulting from any defect or omission in this manual. The manufacturer reserves the right to
make changes in this manual and the products it describes at any time, without notice or obligation.
Revised editions are found on the manufacturer’s website.
Safety information
N O T I C E
The manufacturer is not responsible for any damages due to misapplication or misuse of this product including,
without limitation, direct, incidental and consequential damages, and disclaims such damages to the full extent
permitted under applicable law. The user is solely responsible to identify critical application risks and install
appropriate mechanisms to protect processes during a possible equipment malfunction.
Please read this entire manual before unpacking, setting up or operating this equipment. Pay
attention to all danger and caution statements. Failure to do so could result in serious injury to the
operator or damage to the equipment.
Make sure that the protection provided by this equipment is not impaired. Do not use or install this
equipment in any manner other than that specified in this manual.
Use of hazard information
D A N G E R
Indicates a potentially or imminently hazardous situation which, if not avoided, will result in death or serious injury.
W A R N I N G
Indicates a potentially or imminently hazardous situation which, if not avoided, could result in death or serious
injury.
C A U T I O N
Indicates a potentially hazardous situation that may result in minor or moderate injury.
N O T I C E
Indicates a situation which, if not avoided, may cause damage to the instrument. Information that requires special
emphasis.
Precautionary labels
Read all labels and tags attached to the instrument. Personal injury or damage to the instrument
could occur if not observed. A symbol on the instrument is referenced in the manual with a
precautionary statement.
4 English
This is the safety alert symbol. Obey all safety messages that follow this symbol to avoid potential
injury. If on the instrument, refer to the instruction manual for operation or safety information.
This symbol indicates that a risk of electrical shock and/or electrocution exists.
Electrical equipment marked with this symbol may not be disposed of in European domestic or public
disposal systems. Return old or end-of-life equipment to the manufacturer for disposal at no charge to
the user.
Certification
Canadian Radio Interference-Causing Equipment Regulation, IECS-003, Class A:
Supporting test records reside with the manufacturer.
This Class A digital apparatus meets all requirements of the Canadian Interference-Causing
Equipment Regulations.
Cet appareil numérique de classe A répond à toutes les exigences de la réglementation canadienne
sur les équipements provoquant des interférences.
FCC Part 15, Class "A" Limits
Supporting test records reside with the manufacturer. The device complies with Part 15 of the FCC
Rules. Operation is subject to the following conditions:
1. The equipment may not cause harmful interference.
2. The equipment must accept any interference received, including interference that may cause
undesired operation.
Changes or modifications to this equipment not expressly approved by the party responsible for
compliance could void the user's authority to operate the equipment. This equipment has been tested
and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules.
These limits are designed to provide reasonable protection against harmful interference when the
equipment is operated in a commercial environment. This equipment generates, uses and can
radiate radio frequency energy and, if not installed and used in accordance with the instruction
manual, may cause harmful interference to radio communications. Operation of this equipment in a
residential area is likely to cause harmful interference, in which case the user will be required to
correct the interference at their expense. The following techniques can be used to reduce
interference problems:
1. Disconnect the equipment from its power source to verify that it is or is not the source of the
interference.
2. If the equipment is connected to the same outlet as the device experiencing interference, connect
the equipment to a different outlet.
3. Move the equipment away from the device receiving the interference.
4. Reposition the receiving antenna for the device receiving the interference.
5. Try combinations of the above.
Product overview
The DR 1900 is a portable VIS spectrophotometer that measures in the wavelength range of 340 to
800 nm. The instrument is used to measure various parameters in drinking water, wastewater and
industrial applications. For field use, the instrument operates on four AA batteries. The instrument
comes with a complete set of application programs: stored programs (pre-installed methods), LCK or
TNTplus methods, user programs, favorite programs, single wavelength, multi-wavelength and time
course modes. Refer to Figure 1.
English 5
Figure 1 Instrument overview
1 Sample cell cover 4 Battery compartment
2 Cell compartment 5 Power key
3 Blank module
Product components
Make sure that all components have been received. Refer to Figure 2. If any items are missing or
damaged, contact the instrument supplier or a sales representative immediately.
Figure 2 Product components
1 DR 1900 4 Protective cover
2 Sample cell adapters (4x) 5 1-inch matched pair of rectangular sample cells
(10 mL)
3 AA alkaline batteries (4x) 6 Dust cover
Installation
C A U T I O N
Multiple hazards. Only qualified personnel must conduct the tasks described in this section of the
document.
6 English
Install the batteries
W A R N I N G
Explosion hazard. Incorrect battery installation can cause the release of explosive gases. Be sure that
the batteries are of the same approved chemical type and are inserted in the correct orientation. Do not
mix new and used batteries.
W A R N I N G
Fire hazard. Battery type substitution is not permitted.
N O T I C E
Make sure to tighten the screws carefully for a correct seal fit. Do not over-tighten.
Use four AA alkaline or four rechargeable NiMH batteries to energize the instrument. Make sure that
the batteries are installed in the correct orientation. Refer to Figure 3 for the battery installation.
Figure 3 Battery installation
Install the sample cell adapters
The instrument has one cell compartment which uses adapters for different sample cell types. Refer
to Table 1. The arrow on top of the adapter and the arrow on the cell compartment show the direction
of the cell orientation and the light beam path. Refer to Figure 4 for the adapter installation.
Table 1 Adapter descriptions
Adapter Description
No adapter 1 inch square and flow-thru cell
Adapter A 13 mm round and 10 mm square
Adapter B 1 inch round double path
Adapter C 1 inch round and 1cm/10 mL cell
Adapter D 16 mm round
English 7
Figure 4 Sample cell adapters installation
Install the protective cover
If the instrument operates around bright lights, install the protective cover when the sample cell cover
cannot be closed. Refer to Figure 5.
Figure 5 Protective cover installation
User interface and navigation
Keypad description
Refer to Figure 6 for the keypad description and navigation information.
8 English
Figure 6 Keypad description
1 BACKLIGHT: set the display illumination to on or off 4 RIGHT selection key (contextual): read sample,
selects or confirms options, opens sub-menus
2 SETTINGS: select program or setup options, data
management
5 Navigation keys UP, DOWN, RIGHT, LEFT: scroll
through menus, enter numbers and letters
3 LEFT selection key (contextual): access for options,
cancels or exits the current menu screen to the
previous one
6 HOME: go to the main reading screen
Display description
The reading screen shows the selected mode, wavelength, unit, date and time, operator ID and
sample ID. Refer to Figure 7.
English 9
Figure 7 Single screen display
1 Progress bar 8 Time and date
2 Program name and number 9 Read (contextual: OK, select, start, edit)
3 Reading value and unit 10 Zero (contextual: navigation keys UP, DOWN,
RIGHT and LEFT arrows)
4 Wavelength 11 Options (contextual: cancel, back, stop, exit, store,
select, deselect)
5 Battery status 12 Operator identification
6 AC power icon 13 Sample identification
7 Control bar for TNTplus vials
1
1
The control bar shows the relationship of the reading result with the reading range. The bar shows the reading
result independently of any dilution factor that was entered.
Navigation
The instrument contains menus to change various options. Use the navigation keys (UP, DOWN,
RIGHT and LEFT arrows) to highlight different options. Push the RIGHT selection key to select an
option. Enter an option value with the navigation keys. Push the navigation keys (UP, DOWN, RIGHT
and LEFT arrows) to enter or change a value. Push the RIGHT arrow to advance to the next space.
Push the RIGHT selection key under Done to accept the value. Push the LEFT selection key to exit
the current menu screen to the previous one.
Startup
Set the instrument to on or off
Push the POWER key to set the instrument to on. If the instrument does not come on, make sure
that the batteries are correctly installed.
Hold the POWER key for 1 second to shut down the
instrument.
Note: The Auto-Shutoff option is also used to turn off the instrument. Refer to the expanded manual on the
manufacturer's website.
Set the language
There are two options to set the language:
Set the display language when the instrument is set to on for the first time.
10 English
Set the language from the SETTINGS menu.
1. Push SETTINGS>Setup>Language.
2. Select a language from the list.
Set the date and time
There are two options to set the date and time:
Set the date and time when the instrument is set to on for the first time.
Set the date and time from the Date & Time menu.
1. Push SETTINGS>Setup>Date & Time.
2. Select Set Date & Time Format, then select a format for the date and time.
3. Select Set Date & Time.
4. Use the navigation keys to enter the current date and time, then push OK.
Standard operation
Program list
The instrument is delivered with a complete series of application programs. Refer to Table 2 for the
program descriptions.
Table 2 Program options
Program option Description
Stored Programs/Methods and
LCK or TNTplus Methods
1
Stored programs and LCK or TNTplus methods are pre-programmed methods
for Hach and Hach Lange methods. Refer to Select a stored program or LCK
or TNTplus method on page 11.
User Programs Methods can be developed and can be saved as a user program. Existing
stored methods can be stored and modified as user programs to suit different
requirements.
Favorites Methods which are often used can be saved in the favorite list.
Single Wavelength The single wavelength readings are taken at a specified wavelength.
Multi Wavelength In the Multi Wavelength mode, absorbance values can be measured at up to
four wavelengths. The results can be mathematically processed to get sums,
differences and relationships.
Time Course The time scan automatically records and shows the absorbance at a
wavelength in a specified time period.
1
TNTplus vials are not available for the EU market.
Select a stored program or LCK or TNTplus method
1. Push SETTINGS>All Programs/Methods.
2. Select Stored Programs/Methods or LCK or TNTplus methods.
3. Select an option to find a method or to add it to favorites.
Option Description
Select by number Search by number for a specific method.
Select by letter Search by letter for a specific method.
Add to Favorites Add the selected method and add it to favorites for faster access.
4. Select the applicable method and push Start.
English 11
Select basic program options
When a program is selected, additional parameter options are available.
1. Push Options
to access the option menu.
2. Select the applicable options.
Option Description
Start Timer Select a pre-set timer or set a manual timer to make sure that the steps of an analysis
are correctly timed (e.g., reaction times or wait times can be exactly specified). When the
timer is on, the timer icon is shown on the display. The instrument makes an audible
sound when the time is over. Pre-set timer—Push Start to start the timer. If a stored
program has more than one timed step, push Stop>Options>Select>Select to start the
next timer. Timer Manual—Enter the applicable time with the navigation keys and push
Done. Default = 03:00
Operator ID The operator ID tag associates readings with an individual operator. Refer to Use an
operator ID on page 14.
Sample ID The sample ID tag is used to associate readings with a particular sample or with a
location. Refer to Use a sample ID on page 13.
%T/Abs/Conc Switch to % transmittance, absorbance or concentration readings. Transmittance
reading (%)—Reads the percent of the original light that passes through the sample and
reaches the detector. Absorbance readings—The light absorbed by the sample is read
in absorbance units. Concentration readings—The measured absorbance values are
converted into concentration values with the program-specific stored equation.
Advanced
Options
Use the advanced options to specify more parameters. Refer to Select advanced
program options on page 12.
Back Go back to the previous menu.
Select advanced program options
Every program has various additional advanced options from which to select.
1. Push Options to access Options>Advanced Options.
2. Use the advanced options to specify more parameters.
Option Description
Chemical Form Select the alternate chemical form and the associated measuring range on some factory-
installed methods.
Reagent Blank The Reagent Blank correction can be used with some of the factory-installed methods.
Enter the result of a completed test using deionized water as the sample. The blank value
is subtracted from every result to correct for any background color due to reagents. Enter
the blank correction before the Standard Adjust option is used. Complete this correction for
each new lot of test reagents.
Standard
Adjust
Change stored calibration. Complete a test on a known standard at a concentration near
the top of the test range. Use this function to adjust the result to align the standard
concentration.
Dilution Factor Enter a corrective dilution factor for specific characteristics. The entered number prompt
will be multiplied by the result for the adjustment. For example, if the sample has been
diluted by a factor of 2, set the dilution factor to on and enter 2.
Note: When a dilution is in effect, the dilution icon is shown on the display.
Standard
Additions
Examine the reading accuracy. Refer to the method procedure for more information.
Select the reading mode
Select Single Wavelength, Multi Wavelength or Time Course from the SETTINGS>Photometer
Functions menu.
12 English
Select Single Wavelength options
1. Push SETTINGS>Photometer Functions>Single Wavelength>Options>Advanced Options.
2. Select the applicable options.
Option Description
λ Select a wavelength between 340 to 800 nm. Default: 560 nm
Concentration Select the applicable unit and enter the factor. Defaults: mg/L and 1.000
Resolution Select the resolution with the necessary number of decimal places. Default: 0.01
Save to User Programs Save the selected parameter as an unique user program. Select the name, unit,
wavelength, resolution, chemical formulas 1–4, calibration formula, upper and
lower limit and the timer 1–4.
Select Multi Wavelength options
1. Push SETTINGS>Photometer Functions>Multi Wavelength>Options>Advanced
Options>λ1–λ4.
2. Select the applicable options.
Option Description
Wavelength Select two or more wavelengths. Defaults: 400, 500, 700 or 800 nm.
Abs Formula Select the applicable absorbance formulas for the calculation of the multi-wavelength reading.
The formula specifies the wavelength and the coefficients.
Factors Select the multiplication factors for converting absorbance values into concentration values.
Select Time Course options
1. Push SETTINGS>Photometer Functions>Time Course>Options.
2. Select the applicable options.
Option Description
Total Minutes Enter the total time in minutes for the Time Course. Range: 1 to 60. Default: 10 minutes
Interval Seconds Enter the interval in seconds for the Time Course. Range: 10 to 600. Default: 30 seconds
Wavelength Select a wavelength between 340 and 800 nm. Default: 560 nm
Data Recall Show the saved Time Course data.
Show Table Show the saved Time Course data in a table.
Exit Exit the current menu.
Use a sample ID
The sample ID tag is used to associate readings with a particular sample or with a location. If
assigned, stored data will include this ID.
1. Push Options>Sample ID in the reading screen.
2. Select, create or delete a sample ID:
Option Description
Current ID Select an ID from a list. The current ID will be associated with the sample data until a
different ID is selected.
English 13
Option Description
Create New Sample
ID
Enter a name for a new sample ID. A maximum of 100 names can be entered. The
samples are numbered in sequence for each measurement until a different ID is
selected, e.g., Pond (001), Pond (002).
Delete Sample ID Erase an existing sample ID.
Use an operator ID
The operator ID tag associates readings with an individual operator. All stored data will include this
ID.
1. Push Options>Operator ID in the reading screen.
2. Select, create or delete an operator ID:
Option Description
Current ID Select an ID from a list. The current ID will be associated with the sample data
until a different ID is selected.
Create New Operator ID Enter a name for a new operator ID. A maximum of 50 names can be entered.
Delete Operator ID Erase an existing operator ID.
Maintenance
W A R N I N G
Multiple hazards. Only qualified personnel must conduct the tasks described in this section of the
document.
Clean the instrument
Clean the exterior of the instrument with a moist cloth and a mild soap solution and then wipe the
instrument dry.
Clean the cell compartment
N O T I C E
Make sure there is no sample cell or cell adapter in the cell compartment before this task is started.
Turn the instrument and use a rubber suction bulb to blow carefully air into the cell compartment.
Clean the sample cells
C A U T I O N
Chemical exposure hazard. Obey laboratory safety procedures and wear all of the personal protective
equipment appropriate to the chemicals that are handled. Refer to the current safety data sheets
(MSDS/SDS) for safety protocols.
C A U T I O N
Chemical exposure hazard. Dispose of chemicals and wastes in accordance with local, regional and
national regulations.
14 English
Most laboratory detergents are used at recommended concentrations. Neutral detergents, such as
Liquinox, are safer to use when regular cleaning is necessary. To decrease the cleaning times,
increase the temperature or use an ultrasonic bath. To complete the cleaning, rinse a few times with
deionized water and then let the sample cell air dry.
Sample cells may also be cleaned with acid, followed by a thorough rinse with deionized water.
Note: Always use acid to clean sample cells that were used for low-level metal tests.
Special cleaning methods are necessary for individual procedures. When a brush is used to clean
sample cells, take extra care to avoid scratches on the interior surfaces of the sample cells.
Replace the batteries
W A R N I N G
Explosion hazard. Expired batteries can cause hydrogen gas buildup inside the instrument. Replace
the batteries before they expire and do not store the instrument for long periods with the batteries
installed.
Refer to Install the batteries
on page 7 for battery replacement.
Troubleshooting
Problem Possible cause Solution
Absorbance > 3.5! The measured absorbance is more than 3.5. Dilute the sample and repeat the
reading.
Over range! The concentration is more than the upper limit
of the current method.
Dilute the sample and repeat the
reading.
Under range! The concentration is less than the lower limit of
the current method.
Examine the sample.
Reading Failed! There is an electronic or optical defect. Contact technical support.
Initializing Failed! While initializing, the instrument failed. Set the instrument to off and then
to on.
Contact technical support.
Calibration Needed! The calibration data is corrupt. Contact technical support.
Air Scan Needed! The calibration data is corrupt. Contact technical support.
Please attach the
module!
The module is not found when data is sent. Insert a module.
Failed in sending data! Make sure that the module is
inserted and latched correctly.
English 15
Table des matières
Caractéristiques à la page 16 Mise en marche à la page 23
Généralités à la page 17 Fonctionnement standard à la page 24
Installation à la page 20 Maintenance à la page 28
Interface utilisateur et navigation à la page 22 Dépannage à la page 29
Informations supplémentaires
Des informations supplémentaires sont disponibles sur le site Web du fabricant.
Caractéristiques
Les caractéristiques techniques peuvent être modifiées sans préavis.
Caractéristique Détails
Méthode de mesure Spectrophotomètre VIS pour les méthodes d'analyse de l'eau HACH
et HACH LANGE
Mode de mesure Transmittance (%), Absorbance (Abs) et Concentration (Conc)
Dimensions (l x P x H) 178 x 261 x 98 mm (7,0 x 10,3 x 3,8 po)
Indice de protection IP67 (couvercle de cuve à échantillon fermé)
Poids 1,5 kg (3,3 lb)
Alimentation (interne) Pile alcaline AA (4x) ou
pile rechargeable au nickel-hydrure métallique (NiMH) (4x) (module
optionnel nécessaire)
1
)
Alimentation (externe) Alimentation : 110 à 240 VAC ; 50/60 Hz (module optionnel
nécessaire
1
)
Interface Mini-USB (module optionnel nécessaire
1
)
Température de fonctionnement 10 à 40 °C (50 à 104 °F) ; humidité relative maximale de 80 % (sans
condensation)
Température de stockage –30 à 60 °C (–30 à 140 °F) ; humidité relative maximale de 80 % (sans
condensation)
Lampe source Flash Xenon
Gamme de longueurs d'onde 340–800 nm
Plage de mesure photométrique ±3,0 Abs (dans la gamme de longueurs d’onde 340–800 nm)
Exactitude de la longueur d'onde ± 2 nm (dans la gamme de longueurs d'onde 340–800 nm)
Largeur de bande spectrale 5 nm
Exactitude photométrique 3 mAbs de 0 à 0,5 Abs, 1 % de 0,5 à 2 Abs
Linéarité photométrique < 0,5 % à 2 Abs
≤ 1 % à > 2 Abs avec verre neutre à 546 nm
Sélection de la longueur d’onde Automatique, en fonction du choix de méthode
Lumière parasite < 0,5 % T @ 340 nm avec NaNO
2
Répétabilité ± 0,1 nm
Résolution de la longueur d'onde 1 nm
16 Français
Caractéristique Détails
Programmes utilisateur (programmation
libre)
50
Enregistreur de données 500 valeurs mesurées (résultat, date, heure, ID échantillon, ID
utilisateur, bonnes pratiques du laboratoire)
Cuves d'échantillon 10 x 10 mm, rectangulaire de 1 po, 13 mm / 16 mm / rondes de 1 po,
1 cm / 10 ml, cellules d'écoulement
Classe de protection Alimentation électrique : classe II, instrument : classe III
Certifications Certifié CE
Garantie 1 an (UE : 2 ans)
1
Des informations supplémentaires sont disponibles sur le site Web du fabricant.
Généralités
En aucun cas le constructeur ne saurait être responsable des dommages directs, indirects, spéciaux,
accessoires ou consécutifs résultant d'un défaut ou d'une omission dans ce manuel. Le constructeur
se réserve le droit d'apporter des modifications à ce manuel et aux produits décrits à tout moment,
sans avertissement ni obligation. Les éditions révisées se trouvent sur le site Internet du fabricant.
Consignes de sécurité
A V I S
Le fabricant décline toute responsabilité quant aux dégâts liés à une application ou un usage inappropriés de ce
produit, y compris, sans toutefois s'y limiter, des dommages directs ou indirects, ainsi que des dommages
consécutifs, et rejette toute responsabilité quant à ces dommages dans la mesure où la loi applicable le permet.
L'utilisateur est seul responsable de la vérification des risques d'application critiques et de la mise en place de
mécanismes de protection des processus en cas de défaillance de l'équipement.
Veuillez lire l'ensemble du manuel avant le déballage, la configuration ou la mise en fonctionnement
de cet appareil. Respectez toutes les déclarations de prudence et d'attention. Le non-respect de
cette procédure peut conduire à des blessures graves de l'opérateur ou à des dégâts sur le matériel.
Assurez-vous que la protection fournie avec cet appareil n'est pas défaillante. N'utilisez ni n'installez
cet appareil d'une façon différente de celle décrite dans ce manuel.
Interprétation des indications de risques
D A N G E R
Indique une situation de danger potentiel ou imminent qui, si elle n'est pas évitée, entraîne des blessures graves,
voire mortelles.
A V E R T I S S E M E N T
Indique une situation de danger potentiel ou imminent qui, si elle n'est pas évitée, peut entraîner des blessures
graves, voire mortelles.
A T T E N T I O N
Indique une situation de danger potentiel qui peut entraîner des blessures mineures ou légères.
A V I S
Indique une situation qui, si elle n'est pas évitée, peut occasionner l'endommagement du matériel. Informations
nécessitant une attention particulière.
Français 17
Etiquettes de mise en garde
Lisez toutes les étiquettes et tous les repères apposés sur l'instrument. Des personnes peuvent se
blesser et le matériel peut être endommagé si ces instructions ne sont pas respectées. Un symbole
sur l'appareil est désigné dans le manuel avec une instruction de mise en garde.
Ceci est le symbole d'alerte de sécurité. Se conformer à tous les messages de sécurité qui suivent ce
symbole afin d'éviter tout risque de blessure. S'ils sont apposés sur l'appareil, se référer au manuel
d'utilisation pour connaître le fonctionnement ou les informations de sécurité.
Ce symbole indique qu'il existe un risque de choc électrique et/ou d'électrocution.
Le matériel électrique portant ce symbole ne doit pas être mis au rebut dans les réseaux domestiques
ou publics européens. Retournez le matériel usé ou en fin de vie au fabricant pour une mise au rebut
sans frais pour l'utilisateur.
Certification
Règlement canadien sur les équipements causant des interférences radio, IECS-003, Classe
A:
Les données d'essai correspondantes sont conservées chez le constructeur.
Cet appareil numérique de classe A respecte toutes les exigences du Règlement sur le matériel
brouilleur du Canada.
Cet appareil numérique de classe A répond à toutes les exigences de la réglementation canadienne
sur les équipements provoquant des interférences.
FCC part 15, limites de classe A :
Les données d'essai correspondantes sont conservées chez le constructeur. L'appareil est conforme
à la partie 15 de la règlementation FCC. Le fonctionnement est soumis aux conditions suivantes :
1. Cet équipement ne peut pas causer d'interférence nuisible.
2. Cet équipement doit accepter toutes les interférences reçues, y compris celles qui pourraient
entraîner un fonctionnement inattendu.
Les modifications de cet équipement qui n’ont pas été expressément approuvées par le responsable
de la conformité aux limites pourraient annuler l’autorité dont l’utilisateur dispose pour utiliser cet
équipement. Cet équipement a été testé et déclaré conforme aux limites définies pour les appareils
numériques de classe A, conformément à la section 15 de la réglementation FCC. Ces limites ont
pour but de fournir une protection raisonnable contre les interférences néfastes lorsque l’équipement
fonctionne dans un environnement commercial. Cet équipement génère, utilise et peut irradier
l'énergie des fréquences radio et, s'il n'est pas installé ou utilisé conformément au mode d'emploi, il
peut entraîner des interférences dangereuses pour les communications radio. Le fonctionnement de
cet équipement dans une zone résidentielle risque de causer des interférences nuisibles, dans ce
cas l'utilisateur doit corriger les interférences à ses frais Les techniques ci-dessous peuvent
permettre de réduire les problèmes d'interférences :
1. Débrancher l'équipement de la prise de courant pour vérifier s'il est ou non la source des
perturbations
2. Si l'équipement est branché sur le même circuit de prises que l'appareil qui subit des
interférences, branchez l'équipement sur un circuit différent.
3. Éloigner l'équipement du dispositif qui reçoit l'interférence.
4. Repositionner l’antenne de réception du périphérique qui reçoit les interférences.
5. Essayer plusieurs des techniques ci-dessus à la fois.
18 Français
Présentation du produit
L'appareil DR 1900 est un spectrophotomètre VIS portable qui permet d'effectuer des mesures dans
la plage de longueur d'onde de 340 à 800 nm. L'instrument permet de mesurer divers paramètres
dans les applications d'eau potables, d'eaux usées et industrielles. Pour l'utilisation sur le terrain,
l'instrument fonctionne avec quatre piles AA. L'instrument est fourni avec un jeu complet de
programmes d'application : programmes enregistrés (méthodes pré-installées), méthodes LCK ou
TNTplus, programmes utilisateurs, programmes favoris, longueur d'onde unique, longueurs d'ondes
multiples et modes de plage de temps. Voir Figure 1.
Figure 1 Présentation de l'instrument
1 Couvercle de cuve à échantillon 4 Compartiment à piles
2 Compartiment de la cuve 5 Touche d'alimentation
3 Module d'obturation
Composants du produit
Assurez-vous d'avoir bien reçu tous les composants. Voir Figure 2. Si des articles sont manquants
ou endommagés, contactez immédiatement le fournisseur de l'instrument ou un commercial.
Français 19
Figure 2 Composants du produit
1 DR 1900 4 Couvercle de protection
2 Adaptateurs de cellule à échantillon (4x) 5 Cuves à échantillon rectangulaires compatibles de
1 po (10 ml)
3 Piles alcalines AA (x4) 6 Cache anti-poussière
Installation
A T T E N T I O N
Dangers multiples. Seul le personnel qualifié doit effectuer les tâches détaillées dans cette section du
document.
Installation des piles
A V E R T I S S E M E N T
Risque d’explosion Une installation incorrecte des piles peut libérer des gaz explosifs. Veillez à ce que
les piles soient du même type chimique homologué et qu'elles soient insérées dans le bon sens. Ne
mélangez pas des piles neuves et des piles usagées.
A V E R T I S S E M E N T
Risque d’incendie. La substitution du type de pile n'est pas autorisée.
A V I S
Assurez-vous de serrer correctement les vis afin de préserver l'étanchéité du boîtier. Veillez à ne pas appliquer
un serrage excessif.
Utilisez quatre piles alcalines AA ou quatre piles rechargeables NiMH pour mettre l'instrument sous
tension. Vérifiez que les piles sont installées dans le bon sens. Reportez-vous à la Figure 3 pour la
mise en place des piles.
20 Français
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