Discover the most versatile and accurate particle sizing and counting analyzer on the market. Using the Coulter Principle, also known as Electrical Sensing Zone (ESZ), the Multisizer 4e COULTER COUNTER® provides size distributions in number, volume and surface area in one measurement, with an overall sizing range of 0.2 µm to 1600 µm. Its response is unaffected by particle color, shape, composition or refractive index. The Coulter Principle is the leading technology in high resolution and accuracy and it is enhanced even further in the Multisizer 4e by using a Digital Pulse Processor (DPP). DPP provides ultra-high resolution, multiple channel analysis and accuracy that is unattainable by other technologies. It all makes the Multisizer 4e indispensable for Quality Control or any research project involving sizing and/or counting.
In a traditional counter, analog circuits are designed and constructed to perform a set number of functions in real time. The definition of “pulse” needs to be set in advance so that measurements can be made while particles travel through the aperture. Each pulse is analyzed; its parameters are stored, then “forgotten” - to be replaced by the next pulse arriving in the analyzer. This type of device undoubtedly operates at amazingly high speed, and for simple counting or sizing purposes, it is often adequate. However, for advanced applications of the Coulter Principle, digital technology has obvious advantages.
The proprietary technology of digital pulse processing (DPP) employed in the Multisizer™ 4e involves sampling analog signals at a rate of millions of times per second. The digital values come from an analog-to-digital converter (ADC), which receives the analog output from the signal amplifier. The accuracy and resolution of the digital values depend on the fidelity of the amplifier and the number of bit of the ADC. Differently from analog instruments that capture and report a single value for each pulse, e.g. the peak height, the DPP yields a stream of values with magnitudes that rise and fall as particles pass through the aperture. Instead of a single number, multiple parameters that describe the entire pulse are saved. The DPP affords maximum flexibility in analyzing the data.
The data no longer must be processed and compressed on the fly. Instead, the pulse data generated by each particle is stored and saved without loss of information. They can be “rerun” any number of times using different analysis parameters. Furthermore, the pulses can be re-examined at any time after analysis, using software alone without the need to change hardware. In analog systems the number of channels is set in a chosen range of size for each measurement.
This means that once the data has been obtained, the resolution is fixed. Increasing the resolution in a part of that size range can only be done by re-measuring the sample under a higher resolution setting. With the DPP, the data is always at a higher resolution. The grouping of data into channels is entirely for convenience or display. Channels are defined solely by the software algorithm and can be changed at any time - even after analysis. The ability to reanalyze the data in a narrower size range at a higher resolution is one of the most useful features of the DPP.
The Smart Technology designed into the Multisizer™ 4e makes it the most reliable and easy-to-use Coulter Counter instrument on the market today. Its design ensures the repeatability and uniformity of analysis conditions for all samples and therefore ensures reliable results.
The Electronic Records and Electronic Signatures Rule (21 CFR Part 11) was established by the FDA to define the requirements for submitting documentation in electronic form and the criteria for approved electronic signatures. This rule, in effect since August 20, 1997, does not stand in isolation; it defines the standards by which an organization can use electronic records to meet its record-keeping requirements. Organizations that choose to use electronic records must comply with 21 CFR Part 11. It is intended to improve an organization’s quality control while preserving the FDA’s charter to protect the public. Since analytical instrument systems like the Multisizer™4 generate electronic records, these systems must comply with the Electronic Records Rule. By selecting the 21 CFR Part 11 option in the software, the system automatically reconfigures to comply with these regulations. In addition to 21 CFR Part 11, the software offers other security levels you may customize to your individual needs.
The Multisizer™ 4e software is easy to use for both beginners and experienced users alike. For beginners, the setup of test procedures and the reporting of the results are made simple through wizards included in the software. For experienced users, the Multisizer 4e software provides user-friendly dialog boxes with quick access to all settings. “Create Sample Specifications” is a new feature that allows users to set their desired specifications for a sample. Results out of specifications will be highlighted by the software. The software provides size and pulse data in numerous formats. A broad range of statistical parameters are automatically calculated by the Multisizer 4e software. All the results are presented in a customized report.
The V-Check Program is a comprehensive package that covers appropriate aspects of a product’s life cycle, from instrument development to verification (e.g. SQ, DQ, IQ, and OQ). The V-Check Program contains the necessary documentation for instrument validation. It consists of a number of functional inter-linked components, which have been designed to give you assurance that the product is fit for its designed purpose and will deliver consistent performance. Where other instrument manufacturers leave off, Beckman Coulter and its V-Check Program assist with ongoing quality checks of the instrument - demonstrating the value of a manufacturer who not only understands your needs, but is also willing to develop a partnership for the future.
Overall Particle Size Range | 0.2 µm to 1600 µm in diameter. 0.033 fL to 2.145 x 109 fL or µm3 in volume |
Aperture Diameter | 10 µm to 2000 µm apertures (nominal diameters) |
Aperture Range | Standard 1:30 (by diameter) Total 1:40 (by diameter) Standard 1:27,000 (by volume) Total 1:64,000 (by volume) |
Resolution | User selectable |
Number of Channels | Pulse data is digitized and can be processed to achieve up to 400 size channels for a selected pulse range. Number of channels and range can be reprocessed as necessary |
Electrolyte Solutions | All aqueous and non-aqueous electrolyte solutions recommended for use with aperture technology will be suitable for use with the Multisizer 4e. Electrolytes should be compatible with glass, fluoropolymers, fluoroelastomers and stainless steel |
Digital Pulse Processor | Proprietary high-speed digitization of the signal |
Pulse Data | Time stamped pulses up to 525,000 per signal analysis |
Size Distribution Data | Size distribution by diameter, volume and area for number, number%, number/ml, volume, volume%, volume/ml, surface area, surface area% and surface area/ml |
Pulse Distribution Data | Pulse distribution by time, sequence and width for pulse height diameter, pulse height volume, pulse height volt, pulse width, pulse area, average pulse height diameter, average pulse height volume and average pulse width. Number distribution by width. |
Linearity | ± 1% for diameter ± 3% for volume |
Aperture Current Range | 30 µA - 6000 µA in 0.2 µA steps |
Aperture Current Accuracy | ± 0.4% of setting |
Polarity Error | Less than 0.5% |
Time Mode | 0.1 to 999 seconds, selectable in 10 ms increments.Typically, time analysis is 10 to 90 seconds |
Total Count Mode | 50 to 500,000 counts |
Modal Count Mode | 10 to 100,000 counts |
Volumetric Mode | Continuously selectable from 50 µl to 2000 µl |
Metering System | Mercury-free, wide range metering pump |
Volumetric Pump Accuracy | Better than 99.5% |
Regulatory Compliance | The software enables 21 CFR Part 11 compliance |
Dimensions Weight and Power (excluding computer) | Unpacked weight: 45 kg (99 lb) Width: 64 cm (25 in) Depth: 61 cm (24 in) Height: 51 cm (20 in) Input voltage within set ranges: 100 - 120 VAC; 230 - 240 VAC ± 10%; single phase |
Supply Frequency | 47 to 63 Hz inclusive |
Power | Less than 55 volt-amps (watts) |
Fuse Types | 250 V, IEC (5x20 mm),Time delay (TD), 2.0 A |
Environmental Conditions | a) This instrument is safe for indoor use only. b) Installation category: 11 c) Pollution degree: 1 |
Operating Temperature | 5°C to 40°C |
Relative Humidity | 30% to 85% non-condensing |
Altitude | Up to 2000 m (6560 ft) |
With the lower size limit of 0.2 microns (200 nm), the Multisizer 4e can be used to count, size and provide mass distribution for organelles such as mitochondria. The Multisizer 4e is an important tool in your cellular research.
Part Number | Description |
---|---|
B23005 | Multisizer 4e Instrument with 100 um Aperture Tube |
8546719 | Isoton II Diluent, 20L |
8546930 | Coulter Clenz, 5L |
6602798 | L20 Standard, nominal 20 um, latex particle (NIST Traceable), 1 x 15 mL |
6602796 | L10 Standard, nominal 10 um, latex particle (NIST Traceable), 1 x 15mL |
A35473 | Accuvette, 200 vials & caps (25mL) |
Részecskeméret eloszlás vizsgálata a gyógyszerkészítmények gyártásának meghatározó eleme. A gyógyszerkészítmények részecskeméret eloszlása befolyásolja a termékek biztonságát, mellékhatásaikat és hatásosságát. A kutatás és fejlesztés minden szakaszában valamint számos gyógyszeripari termék preklinikai és klinikai vizsgálata során kritikus mozzanat a részecskék jellemzése. Ezen túl széles körben elterjedt módszer az analitikai technológiában (PAT). A méret eloszlás vizsgálatát, szennyező anyagok aggregátumainak számlálását, valamint a részecskék felületi töltésének meghatározását a hatóanyag hordozók - mint liposzóma, nanorészecskék, parentiális, orális szuszpenziók, vakcinák, bőrgyógyászati termékek, tabletta - jellemzésére használják. Olyan népszerű módszerek, mint a lézer diffrakció és a dinamikus fényszórás használata a részecskeméret meghatározásához, az elektroforetikus fényszórás elvének alkalmazása a felületi töltés elemzésére, a Coulter elv használata a sejt és részecske számlálására és a sejtek dinamikus változásának elemzésére egyaránt népszerű beavatkozás nélküli technikák a részecskék eloszlásának megállapítására.
Forgalmazott termékeink gyártói - keressen gyártó szerint a logóra kattintva