A new standard in terms of ease of use
KEM’s new intuitive operation concept makes a touchscreen based user interface in many cases redundant: No methods to select, no sample file to enter, no click required to run different types of measurements one after the other or automatically in a row. Instead of controlling the titrator with a costly touchscreen the operator controls it with a reasonably priced automation unit. The CHA-700 Sample Changer has no rotating turntable but six or eleven fixed positions. Each of these positions can be dedicated to a certain type of measurement. In order to perform measurements the operator only needs to know which type of sample comes into which position and to put it there – an easy task which does not require any training.
Comfortable input of measuring methods
Entering measuring methods on an instrument directly normally means annoying scrolling and time-consuming input of names and numbers on a small screen. The AT-710B offers a far more convenient way to enter measuring methods working on the big screen and the comfortable keyboard which is available to everybody: The methods can be developed directly on an USB memory stick on any personal computer – without needing to install any software. This concept does not only make method development more convenient, it makes it at the same time easier to install the same method on several AT-710B titrators and ensures that there is always at least one backup copy of your valuable methods.
Substantial accuracy and reliability enhancement
High resolution burettes, small dead volumes and automatic compensation of the influence of ambient temperature fluctuations: The AT-710 titrators come with all the prerequisites that ensure highly accurate results:
The burette drives have a resolution of 20’000 steps.
No more classical turning valve connected to the burette: The AT-710 titrators come with a newly developed valve mounted directly on top of the burette. Advantage: Less connecting tubes, which means less cross contamination when replacing reagents and less room for air bubble formation.
Fluctuations of the ambient temperature can cause measuring errors. With an optional temperature sensor the AT-710 titrators monitor the temperature of the titration reagent and correct errors due to volume expansion automatically.
Smooth data entry and control
Transmitting sample weights directly from a balance, inputting sample names with a barcode reader, entering sample codes with a numeric keypad: The AT-710 titrators offer all the interfaces and features required for a seamless integration into your workflow.
The AT-710B offers even the possibility to connect an Android device. The corresponding App can be used to start and stop titrations. It provides a real time display of the titration curves and facilitates the easy input of sample weights.
Electrode data stored in the cable
The optional smart electrode cable with IC chip stores calibration results, replacement date etc. of an electrode. Time consuming recalibration can be avoided when multiple electrodes are used.
A system which grows with your needs
Whatever your titration needs will be in the future – your initial investment will never be lost: The AT-710B titrator can easily be upgraded to an AT-710S or to an AT-710M titrator by simply adding the corresponding MCU-710 control unit. It is thus possible to convert your stand alone titrator to a touch panel controlled titration system, capable of running up to 4 titrations of any type simultaneously – including volumetric or coulometric Karl Fischer titrations.
The ultimate in space efficiency
Bench space as it is normally limited. The AT-710 titrators deal very economically with this valuable resource: Even a fully fledged titration system consisting of an AT-710 Titrator and a CHA-700 Sample Changer does not occupy more than 365 mm of bench space – a new record in terms of space efficiency in the world of titration!
- Amino acids in Sake
- pH value and titrable acidity
- CO2 content
- Chloride (NaCl)
- Free and total sulfurous acid
- Volatile acids
- Citric acid
- Phosphoric acid
- Calcium
- Ascorbic acid
- Kjehldahl nitrogen
- Fluoride
- Total iodine
- Nitrite
- Ash alkalinity
- Free fatty acids
- Iodine value
- Saponification value
- Formol number
- Reducing sugars
- Oxalic acid
- Free fatty acids
- Peroxide value
- Peroxide value of oleic acid
- POV of animal fat
- Saccharin
- Cyclamate
- Methoxy and ethoxy groups
Standards
ASTMD558
E203
D695.33
AOAC695.33
- Acid number of biodiesel
Acid number of resin
- Peroxide number of kerosene
- Total acid number (TAN)
- Base number
- Total base number (TBN)
- Chloride
- Bromine number
- Bromine index
- H2S
- Mercaptan
- Saponification number
- Hydoxyl number
- Hydoxyl value of polyether polyol
- Organic chlorine content
- Isocyanate
- Monomer residues in PE
- Carboxyl group in PET
- Sodium Hydroxide
- Purity of acrylic acid
- Nitrogenous bases
- Sodium Polyacrylate
- Acid consumption of detergent
- Purity of Benzoic Acid
- Sulfadimethoxine in dye
- Chloride in dyestuff
- Amino group in dyestuff
Standards
ASTMD94
D664
D974
D1159
D2420
D2710
D2896
D3227
D4739
D4929
D5776
D6470
E1899
DIN51559
DIN ISO3771
DIN EN12634
IP177
GOST29255
ISO3012
3839
6619
14900
JISK0070
K2501
K4101
K8073
K8150
K1557-1
JPI5S-46-96
UOP163
209
212
304
588
- Various active ingredients
- Determination of iodine
- Benzethonium chloride
- Benzalkonium chloride in bactericide
- Ca and Mg in dialysis solution
- Chloride in pharmaceutical products
- Al and Mg
- Sodium hydrogen carbonate
- Purity of salicylic acid
- Sodium sulfate in cosmetics
- Anionic surfactants
- Cationic surfactants
- Al and Mg
- Urea
- Total hardness (Ca and Mg)
- Alkalinity
Standards
EN ISO9963
DIN38406-3
38405-1
EPA130.2
310.1
- Sulphuric acid
- Hydrochloric acid
- Sodium Hydroxide
- Ammonium Hydroxide
- Boric acid in electrolyte
- Ferric iron in hydrochloric acid
- Trace chlorine in cements
- Aluminium oxides in cements
- Cobalt in cemented carbide
Standards
CIS032B
ISO6353-3
JISK8863
- Cu in metal baths
- Ni in metal baths
- Boric acid in nickel baths
- Tetrafluoroboric acid in Ni baths
- Surfactants in plating baths
- Cadmium in plating baths
- Cyanide in plating baths
- Tin in plating baths
- Chloride in plating baths
- Hydroxide and carbonate in plating baths
- Cr(IV) and Cr(III) in chromium baths
- H2SO4 in etching solution
- Chromic acid in chrome bath
- Ferrous salt in etching solution
- Ferric salt in etching solution
- Nickel Sulfate in electrolytic colorant
- Amine in electrodeposition paint
- Acid number in insulating oils
- Boric acid concentration
- Total acid number in insulating oils
Standards
ASTMD974
BS148
JISC2101
K8137
K8142
JPI-5S-57-99760