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Onyx PCX
제품명: Onyx PCX
용도: 포스트 컬럼 유도체화 시스템
메이커: Pickering Laboratories
카달로그: 다운로드


소개

 

Onyx PCX        포스트 컬럼 유도체화 시스템

 

 

Onyx PCX 소개 (Introduction)2-onyx-systems-300x291.png


It’s the next generation of HPLC post-column derivatization instruments resulting from Pickering Laboratories’ 35 years of experience in post-column instrument manufacturing. Previously, the Pinnacle PCX set the benchmark for innovative design as the top-of-the-line PCX model. Now, it is surpassed by the Onyx PCX as the best post-column instrument available on the market. 


Pickering Laboratories still offers the only instrumentation optimized for the analysis of Amino Acids, Carbamates, Glyphosate, Mycotoxins, Antibiotics and many other applications. Each component is specifically designed to enhance sensitivity and selectivity. Only Pickering Laboratories offers complete application support, including chemicals, columns, methods and post-column systems. Because each part of the method is designed to work together, Pickering Laboratories can offer the extraordinary promise that the analysis is guaranteed to work for the intended application. 


The Onyx PCX reflects the ease of use, reliability and ruggedness customers have come to expect from Pickering Laboratories. 

 


 

 

1-onyx-system.png

 

 

 

 

특징 및 장점 (Features and Benefits)


•  All Onyx PCX components specifically designed for post-column derivatization

•  Programmable temperature gradient column oven for faster Amino Acids Analysis run times

•  Column oven is oriented for easy column switching and features improved tubing guards

•  Electronic pulse-free syringe pump provides greater sensitivity

•  Automatic piston wash and programmable system flush

•  Full-size removable reagent tray provides convenience and meets secondary containment requirements

•  Electronic valves have no expensive check valves to service and replace

•  Quick change reactor cartridges enable fast application switching and easy cartridge replacement

•  Inert flow path protects from metal contamination and extends system life while reducing maintenance

•  Color LCD display provides for continuous system monitoring and critical message alerts

•  All fluidics located on front panel for instant access and easy leak checks, drip tray included

•  Improved pump access for expedient maintenance

•  Integrated gas manifold allows for easy set-up and facilitates reagent preparation and preservation

•  Onyx PCX control software runs from Windows PC for easy operation and reagent conservation between runs

•  Software stores methods and sequences, allowing for flexible application setup and switching

•  Seamless application migration from Pinnacle PCX to Onyx PCX, including method transfers

•  Log files collect continuous data, from system status to error messages

•  Pickering Support Team available for rapid log file interpretation and troubleshooting assistance

•  Serviceability simplified with removable instrument side panels and isolated electronics

•  Field calibration now available by trained Pickering Laboratories service engineers to support recertification

•  Programmable Temperature Gradient: Amino Acids Analysis 

 

 

 

아미노산 분석을 위한 프로그래밍 운도 구배 (Programmable Temperature Gradient: Amino Acids Analysis)


The Onyx PCX provides an unique opportunity to combine the eluant gradient capabilities of modern HPLC instruments with programmable column temperature gradients. As might be expected, this capability helps reduce Amino Acids Analysis run times. Even more significant is the ability to resolve coelutions. Consider such metabolic markers as Alloisoleucine (MSUD) and Argininosuccinic acid (ASA); under standard isothermal conditions these amino acids coelute with Cystathionine and Isoleucine respectively, but both are resolved using a targeted temperature gradient program. The ability to accomplish this derives from the multiple retention mechanisms of the gel-type resins employed in ion-exchange, enabling all the amino acids to appear in the same chromatogram. The exact position of each amino acid is influenced by an array of mechanisms including partitioning, adsorption, charge exclusion, etc. So even though two amino acids might coelute, their proximity is incidental. And since retention processes are affected differently by changes in pH, salt concentration and temperature, all these parameters have significant influence on selectivity.

 

 

 

Onyx PCX 운용 소프트웨어 (Onyx PCX Control Software)


The Onyx PCX is controlled by PCX Control Software, compatible with Windows 7 or newer Windows operating systems. Using the same computer as the HPLC, the PCX Control Software interfaces easily with Agilent OpenLab or communicates with any other modern HPLC using a relay connection. The computer physically connects to the Onyx PCX unit through a USB cable. After an easy installation and configuration, the software runs in a window or as an icon on the computer desktop. The main software display matches the instrument’s digital LCD display, where all PCX functions of temperature, flow rate and system status are displayed in real time.

 

This allows for monitoring and control of the PCX and HPLC from one computer. Methods are managed within the PCX Control Software and can be created, edited and saved to create a library for all application parameters. A sequence table is used to schedule multiple runs of the same or different methods in a series. At the end of the sequence a full system flush can be programmed. System and pump performance can be evaluated in the maintenance menu, using a pump pressure test and system pressure test. An instrument log file continually records system status and error messages for later reference and can be sent to Pickering Labs Support for remote diagnostics.

 

 

 

시린지 펌프 & 밸브 (Electronic Syringe Pumps and Valves)


The syringe pump’s cylinder and head are made from a single piece of 99.9% Alumina for ruggedness and non-reactivity. The piston surface is made from PEEK with an inert O-ring seal. The piston seal is protected by an automatic piston wash system that provides long seal life. The programmable flow rates range from 50 ul to 1500 ul/minute with a refill cycle of under 60 seconds. The electronic valve utilizes PEEK and PTFA with a port layout that eliminates cross contamination.

 

 

 

반응기(Reactor)


The reactor is designed for quick heating and easy switching between applications. The heating and control electronics are in the base unit of the reactor while the coil volumes are inserted with a ‘quick-change’ cartridge on the front fluidics panel. The temperature range holds within 1 °C resolution from 5 °C above ambient room temperature to 130 °C maximum setpoint.

 

 

 

컬럼 히터(Column Heater)


The column heater utilizes recirculating airflow technology to provide quick and uniform column heating. Fast column cooling is assisted by the introduction of a fresh air flow into the chamber. The temperature range holds within 1 °C resolution from 5 °C above ambient room temperature to 75 °C maximum setpoint. The temperatures can be programmed for a gradient with as many steps as required for fine-tuning an analysis. 


사양


반응기 (Reactor)

•  Heated reactor temperature from 5 °C above ambient to 130 °C maximum setpoint

•  Stability +/- 0.5 °C

•  Accuracy +/- 1 °C

•  Thermal safety switch limits temperature to 150 °C to prevent damage

•  Easy replacement coil cartridges

•  Range of reactor dwell volumes available, from 0.1 mL to 3 mL

•  Reaction coil withstands up to 42 bar (600 psi) inlet pressure at 130 °C

 

 

컬럼 히터 (Column Heater)

•  Heater accepts 6 or 8 mm OD (0.25 or 0.31 inch) x 50-250 mm in length Column and guard

•  Temperature holds within ± 1 °C resolution from 5 °C above ambient to 75 °C maximum setpoint

•  Programmable temperature gradient

•  Easy access to column compartment and improved tubing guards

 

 

시약 펌프 (Reagent Pumps)

•  True pulse-free syringe pump with single piece ceramic barrels

•  Maximum operating pressure 500 psi (35 bar)

•  Programmable flow rates of 50 μL to 1500 μL/minute

•  Refill cycle of 60 seconds or less

•  Automatic piston wash

•  Automatic reagent flush cycle

•  No instrument check valves

 


가스 압력 매니폴드 & 조절 (Gas Pressure Manifold and Regulator)

•  Panel-mounted gas manifold

•  Regulator maintains 3-5 psi (0.3 bar) on reagent reservoirs with 45-75 psi (3-5 bar) source pressure

•  Safety pressure-relief valve opens at 8 psi (6 bar)

•  Manifold with anti-siphon valves and two 1/4-28 fittings 

 

 

안전 보조 장치 (Safeguards)

•  In-line check valve prevents reagent back flow into the column when HPLC pressure drops

•  Replaceable reagent filters to prevent reactor fouling

•  Post-column system over-pressure protection from pre-calibrated relief valve opens at 500 psi (35 bar) to prevent rupture

   of the post-column reactor tubing in the event of down-stream blockage

•  Back-pressure regulator applies 100 psi (7 bar) to the detector flow cell outlet (waste line) to prevent detector noise and

   precipitation due to out-gassing or boiling 

 

 

디스플레이 (Display)

•  LCD display, color 800 x 480 pixels, 153 x 85 mm viewing area

•  Real time temperature, pressure and critical system alerts shown

•  Intuitive system status icons 

 

 

크기 (Dimensions)

•  22.4 H x 12.0 W x 19.15 D inches (56.9 x 30.5 x 48.6 cm), instrument with doors closed

 

 

무게 (Weight)

•  60 lbs or 27 kg for dual-pump systems

•  50 lbs or 23 kg for single-pump systems

 


전기 (Electrical)

•  Factory configured as either 100-120 VAC, 50/60 Hz, 1.7 A, 200 W or 200-240 VAC, 50/60 Hz, 0.8 A, 200 W

•  Mains voltage ± 10 % of nominal

•  Current 5 A maximum

•  Installation (over voltage) category II, pollution degree 2

•  Fuses, 2 ea., 5 mm x 20 mm, 6.3 A, 250 VAC, time lag

 

 

운영 환경 (Environmental)

•  Indoor use only

•  Altitude up to 6500 ft (1981 m)

•  Ambient temperature 15 ° – 29 °C

•  Relative humidity up to 80 % at 31 °C 

 


EMC 인증 (EMC Compliance)

•  Onyx PCX complies with EN 61326-1


동영상



주문정보

주문정보.PNG

관련자료

아미노산 (Amino Acids) 

 

•  30-minute Amino Acid Analysis of Hydrolyzed Samples (380.1) 

•  70-Min Amino Acid Analysis of Physiological Samples (382) 

•  Amino Acids Analysis of Cell Culture Media (371) 

•  Amino Acids Analysis of Monoclonal Antibodies (373) 

•  Amino Acids Analysis of According to European Pharmacopoeia 8.0. (391) 

•  Amino Acids Analysis Sports Drinks and Supplements (393) 

•  Analysis of Amino Acids in Oxidized andUnoxidized Feed Samples (374)

     

    곰팡이 독소 (Mycotoxins)

     

    •  Clean-Up and Determination of Aflatoxins in Peanuts and Peanut Butter (215)

    •  Clean-up and Analysis of Aflatoxins and Ochratoxin A in Herbs and Spices (218)

    •  Ochratoxin A in Red and White Wine with OtaCLEAN™ and AcceCLEAN™ (220)

    •  Multi-Residue Mycotoxin Analysis (203.1)

    •  Multi-Residue Mycotoxin Analysis of Dry Distillers Grains (208)

    •  Analysis of Fumonisins FB1, FB2 and FB3 (249)

    •  Analysis of Fumonisins in Grains and Feed (252)

    •  Analysis of Mycotoxins in Cannabis Plants and Cannabis Containing Products (241)

     

     

    오염 및 잔류물 (Cotaminants and Residue)

     

    •  Bromate Analysis (120)

    •  Nitrite and Nitrate Analysis (121)

    •  Simultaneous Determination of Nitrite & Nitrate in Processed Foods (123)

    •  Sensitive and Selective Analysis of Nitrite and Nitrate in Drinking Water by Ion Chromatography (IC) with Post-Column

       Derivatization and UV/VIS Detection (129)

    •  Highly Sensitive Analysis of Chromium (VI) in Drinking Water by Ion Chromatography (IC) with Post-Column Derivatization and

       UV/VIS Detection (388)

    •  Expanded HPLC Method for N-Methyl Carbamates (112)

    •  Analysis of N-Methyl Carbamate Pesticides in Food (472)

    •  Glyphosate and AMPA Analysis in Crops (206)

    •  Glyphosate Analysis in Soy Beans, Corn and Sunflower Seeds (207)

    •  Glyphosate Analysis in Foods (211)

    •  Analysis of Glufosinate and Glyphosate in Water by HPLC with Post-Column Derivatization (296)

    •  Analysis of Paralytic Shellfish Toxins in Bivalve Mollusks using HPLC Method with Post-column Derivatization and Fluorescence

       Detection (105.3)

    •  Analysis of Biogenic Amines (102)

    •  Polyether Antibiotics (104)

    •  Analysis of Polyether Antibiotics in Animal Feeds by HPLC with Post-Column Derivatization (264)

    •  Aminoglycoside Antibiotics in Feed (205)

    •  Analysis of Formaldehyde (325)

     

     

    식품 / 사료 / 보조제 (Food/Feed/Supplements)

     

    •  Analysis of L-Theanine in Tea by HPLC With Post-column Derivatization (378)

    •  Analysis of Antioxidants in Foods and Dietary Supplements Using HPLC with Post-column Derivatization (231)

    •  Analysis Of Vitamin B1 In Foods And Dietary Supplements By Hplc with Post- Column Derivatization And Fluorescence

       Detection (233)

    •  Analysis of Bioavailable Niacin (Vitamin B3) by HPLC with Post-column Photochemical Derivatization in Foods and

       Supplements (237)

    •  Simultaneous Analysis of Vitamins B1, B2, B3 and B6 in Protein Powders and Supplements (239)

    •  Sulfonamide Artificial Sweetners in Food Products (124)

    •  Analysis of Sugars in Feeds (223)

    •  Analysis of Voglibose in Pharmaceutical Formulations (327)

    •  Analysis of Alendronic Acid in Pharmaceutical Formulations (328)

    •  Analysis of Amino Acids Supplements and Sports Drink (393)

    •  Analysis of Amino Acids in Oxidized and Unoxidized Feed Samples (374)

    •  Analysis of Amino Acids in Dietary Ingredients and Supplement (397)

     

     

     

    대마 및 대마초 (Hemp & Cannabis)

     

    •  Analysis of Mycotoxins in Cannabis Plants and Cannabis-containing Products (241) 

    •  Analysis of Cannabinoids in Hemp and Hemp-containing Products Using HPLC with Post-column Derivatization (242)

    •  Analysis of Cannabinoids Using HPLC with Post-column Derivatization (243)

    •  Analysis of Mycotoxins in Hemp And Hemp-containing Edible Products (244)