Dionex IC
Objektnummer | B00019169 |
---|---|
ID-number | 019169 |
Object name | Dionex IC |
Status | Archiv |
Status, terms of delivery and payment
Verification of devices
The second-hand devices are verified by Labexchange Service GmbH before delivery. You are receiving only fully functional devices.
Dispatch time
The stated dispatch times are the shortest possible ones for each article. The effective dispatch times can vary. The effective dispatch times will be stated in the order confirmation.
As a matter of principle, we are offering collective deliveries. The shipping time is calculated based on the position with the longest lead time. A partial delivery is possible on explicit request.
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Delivery information
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For deliveries to countries outside the EU, an additional fee of 70,00€ for export is charged. Note for international shipments: A proof of preference/EUR1 will not be issued by us. When self-collecting/ordering EXW from countries within or outside the European Union, 16% VAT will be retained as a deposit until we have received the corresponding confirmation of arrival/bill of delivery from the buyer.
Terms of payment
We do not accept payment by credit card, letter of credit, PayPal, etc. In each case the invoice amount is payable without deduction. Discount is not granted.
Country |
Possible payment methods |
Comment |
DE, AT, CH |
Payment by invoice, payment in advance |
Payment by invoice is only possible for corporate clients. |
NL, BE, LU |
Payment by invoice, payment in advance |
Payment by invoice is only possible for corporate clients |
Other countries |
Payment in advance |
|
Our General Terms of Sale, Delivery and Payment are valid and are available for download here.
The goods are offered subject to prior sale.
Definition of status
All articles are used articles, except an article is listed especially as a new device.
Status |
Condition |
Comment |
Immediately available |
Used | The article is fully functional and in impeccable condition. It can be shipped immediately. |
In stock |
Used |
The article is on stock. Our service technicians will verify the article before delivery. You are receiving only a fully functional article. |
Published |
Used |
The article is still with the provider. After your order the article will be purchased and verified by us before being shipped to you. A certificate of operativeness as well as a service report are included in delivery. |
New device |
new |
The article is brand new and unused. Regarding new equipment the guarantee/warranty conditions of the corresponding manufacturer apply. |
Firma: Dionex
Kommentar: Dokumente engl. (für Id. 14628)
The following illustrations and descriptions are referring to the instrument model and are drawn from brochures. They are not representing the delivery volume. The exact delivery content you will find only in the offering text.
GP40 Gardient Pump
The GP40 Gradient Pump is an integral part of a DX 500 chromatography system. It is a microprocessor-based, dual-piston, variable-Speed, gradient delivery system designed to blend and pump mixtures of up to four different mobile phases at precisely controlled flow rates. The pump can deliver the selected mobile Phase composition isocratically, or as a multistep linear or curved gradient, A Digital Signal Processor (DSP) provides high Speed control of pump flow and Pressure.
The GP40 can operate as a stand-alone product or with other Dionex modules as part of a complete chromatography system. It can also be used with non-Dionex modules that meet Interface requirements for software, TTL, or relay control.
The GP40 can be controlled locally, using the front panel keypad and display, or from a remote host computer with a Dionex
DX LANTM interface installed and PeakNet software installed an the host computer. Limited remote control is also available from any device capable of providing compatible TTL signals to control the pump.
The pump's two basic modes of control, Direct control and Method control, enable it to operate with or without reference to time-based events.
Specifications
Electrical
Main Power Requiremtns 85 to 270 Vac, 47163 Hz, 2.5 amps. The GP40 power supply is main voltalte auto-sensing and requires no manual adjustment.
Fuse Requirements Two 3.15 amp fast-blow 1EC 127 fuses (P/N 954745)
Environmental
Operating Temperature 10 °C to 50 °C (50 °F to 104 °F)
Operating Humidity 5 to 95% relative humidity (non-condensing) Humidity
Physical
Dimensions
33.5 cm high x 22.5 cm wide x 42 cm deep
(13.1 inx8.9inx 16.8 in)
6 cm clearance required in back of the module
Weight 19 kg (42 Ibs)
Display and Keypad
Display Liquid crystal with .adjustable backlighting.
Keypad 26-button pad for entering commands and numerical values for
screen parameters.
Hydraulics
Eluent Selection Four different mobile phase components; each can be
proportioned from 0-100%
Pump Dual-piston, variable speed, 100 iaL (standard bore), 25 µL (microbore) stroke, user-selectable constant pressure or constant flow feedback control
Flow Rate Standard bore pump head: 0.04 to 10.0 mL/min, linearly variable in increments of 0.01 mL/min
Microbore pump head: 0.01 to 2.50 mL/min, linearly variable in increments of 0.01 mL/min
Operating Pressure 35 MPa (5000 psi) maximum
Pressure Resolution 0.07 MPa (10 psi)
High Pressure Limit 0 to 35 MPa (0-5000 psi) in increments of
0.05 MPa (7.25 psi); trips instantaneously
Low Pressure Limit 0. to 35 MPa (0 to 5000 psi) in increments of
0.05 MPa (7.25 psi); trips after a time-out of 0.4 mL for the standard bore GP40 or 0.1 mL for the microbore GP40
Delay Volume Approximately 0.92 mL for standard bore pump heads or 0.72 mL for microbore pump heads, measured from the proportioning valve up to, and including, the 61-cm (24-in) pressure transducer outlet line.
Gradient Control
Methods Stores up to 100 separate gradient methods (00 through 99), each of which may contain up to 50 separate steps. The actual number of stored methods depends an available memory.
Control The keypad is used to select the pump's operating parameters and to program methods.
Storage Non-volatile memory protects against the loss of programs during Power-down or in the event of a Power failure.
Remote Limited remote operation via TTL-input logic level, and TTL-output and relay contact closures, or full remote programming and control through DX LAN interface.
Vacuum Degas Pump Assembly
Channels 4-channel membrane vacuum degas
Materials wetted materials, PEEK, PTFE
Performance
>69% degas ratio @ 1 or 3 mL/min with 8.5 ppm 02 at input
0.200 Kg F/cm2 flow resistance @ 10 mL/min
LC 20 Chromatography Enclosure
The LC20 Chromatography Enclosure is an integral part of the Dionex DX 500 Chromatography Systems. It can house the following system components, which must be ordered separately or as part of another module: Separator columns, optional guard columns, SRSTM (Self-Regenerating Suppressor), DS3 Detection Stabilizer, and detector cell(s) for the ED40 Electrochemical Detector and CD20 Conductivity Detector.
The LC20 is available in two configurations, depending an the type of injection valve installed:
LC30, PEEK automated injection valve (P/N 044088)
LC30, stainless steel automated injection valve (P/N 044171)
Eluent from the gradient pump enters the Rheodyne injection valve port inside the enclosure. From the injection valve, eluent and sample flow through the guard column (if used), the separator column, the suppressor or other post-column device, and finally through the detector cells.
The LC20 may be configured for optional dual-channel operation. It will then include a second Rheodyne injection valve and component panel. There is enough tubing in the LC20 Ship Kit (P/N 046300) to plumb two systems.
The LC20 does not require Power. Internal components are operated by the GP40/IP20 pump.
Specifications
Environmental
Ambient 4 °C to 75 °C
Temperature: (40 °F to 167 °F)
Humidity: 5-95% relative (non-condensing)
Air Pressure: 400 to 800 KPa (60 to 120) psi for the Rheodyne injection valve and column select valve;
Use laboratory-quality air or regulated compressed air, nitrogen, or helium.
Operating Pressure 35 MPa (5000 psi) maximum liquid path (tubing, valves, columns, etc.)
Physical
Dimensions:
50 cm high x 22.5 cm wide x 49 cm deep
(20.8 in x 8.9 in x 20.4 in)
6 cm clearance required in back of the module
Weight: 12 kg (25lbs)
Hydraulics
Rheodyne Injection 35 MPa (5000 psi) metal-free or stainless steel rotary valve
Valve for low-volume injections.
Column Select Valve 28 MPa (4000 psi) metal-free column select valve to direct
eluent and sample to one of two columns. The column select valve option is installed at the factory but is not plumbed into the system. Tubing to plumb the LC20 for column select applications is included in the LC20 Ship Kit (P/N 046300).
Insulation
Dampening Dampens outside temperature variations by a factor of
- 5 to 10 over minutes
- 2 to 4 over 60 minutes
CD 20 Conductivity Detector
The CD20 is a sensitive, accurate, and versatile conductivity detector for detecting and quantifying ionic analytes in liquid and ion chromatography. It is especially useful for those analytes which lack UV chromophores and cannot be determined with adequate sensitivity by UV absorbance. This includes a wide variety of both organic and inorganic molecules; cations as well as anions. The major organic analytes are carboxylic, sulfonic, and phosphonic acids; and primary, secondary, tertiary, and quaternary amines. Inorganic analytes include strong acid anions such as the halides, sulfate, nitrate, and phosphate; alkali metal and alkaline earth cations. Conductivity detection, especially when combined with chemical eluent suppression, provides excellent sensitivity and selectivity for numerous ionic species, both organic and inorganic.
The CD20 Conductivity Detector is housed in a Dionex DX500 enclosure. The detector is designed to be stacked on top of other DX500 units to a recommended maximum height of four units.
Specifications
Electrical
Main Power 85 to 270 Vac, 47/63 Hz; 40 W Max, 25 W typical. The CD20 power supply is auto-sensing and no voltage adjustment is required.
Fuse Two 3.15 amp slow-blow IEC 127 fuses (P/N 954745).
Analog Output User-selectable full-scale Output of 10, 100, or 1000 mV.
Environmental
Operating Temperature 4 °C to 40 °C (40 °F to 104 °F)
Operating Humidity 5 to 95% relative humidity (non-condensing)
Physical
Dimensions 22.5 cm W x 17.0 cm H x 42.0 cm D
(8.8 in W x 6.6 in H x 16.4 in D)
6 cm (2.4 in) clearance required behind detector.
Weight 8.2 kg (18 lb)
Display and Keypad
Display A Power-Up screen and seven basic User-Interface screens for method generation and controlo The CD20 Diagnostics Program adds eight diagnostic screens. The display is liquid crystal with adjustable backlighting
Keypad 26-key keypad for entering commands and numerical values for screen parameters.
Detector
Range 0.01 µS to 3000 µS, full scale
Temperature Compensation 0.0 to 3.0% per °C
Cell Drive Variable 8 kHz square wave
Local Operation Front panel controls and display status of all functions
Remote Operation All functions controlled by PeakNet software an a Computer. Connection is via the DX LAN. Control of 4 of 7 functions is possible via TTL or Relay contacts.
Conductivity Cell
Cell Body PEEK
Active Volume 1.0 µL
Maximum Pressure 2.0 mPa (300 psi)
Electrodes 316 stainless steel
SRS Power Supply
Suppiy Current 0, 100, 300, 500 mA @ 1.5 to 7.5 V.
Over-Voltage Alarm 8.5 V
Over-Temperature Alarm 40 °C
DS3 Detection Stabilizer
Operating Temperature 25 °C to 40 °C (50 °F to 104 °F)
Warm-up Time 10 minutes (typical)
Under/Over Temperature Not Ready message displayed when not at set temperature
Alarms
AD20 Absorbance Detector
The AD20 Absorbance Detector is a dual-beam, variable wavelength photometer. Full spectral capability is provided by two light sources: a deuterium lamp for ultraviolet detection and a tungsten lamp for visible wavelength operation. The AD20 features programmable wavelength selection and automatic calibration for precision, reproducibility, and ease-of use. The AD20 is designed for use with a variety of standard bore and microbore flow cells.
The AD20 can be controlled locally from the front panel, or from a remote host computer via the optional Dionex DX LAN interface and PeakNet Software.
Specifications
Electrical
Main Power 90 to 265 Vac, 47/63 Hz; 150 W Max, 100 W typical. The power supply is auto-sensing and requires no voltage adjustment.
Fuse Two 3.15 amp fast-blow IEC127 fuses (1)/N 954745)
Analog Output User-selectable full-scale output of 10, 100, or 1000 mV
Environmental
Operating Temperature 10 °C to 40 °C (50 °F to 104 °F)
Operating Humidity 5 to 95% relative humidity (non-condensing)
Physical
Dimensions 22.5 cm W x 33.5 cm H x 42.0 cm D
(8.8 in W x 13.1 in H x 16.4 in D)
6 cm (2.4 in) clearance required behind the detector
Weight 13.6 kg (30 lbs)
Display and Keypad
Display Liquid crystal display with adjustable backlighting
Keypad 26 buttons for entering commands and numerical values for screen parameters
Detector
Optical System Dual-beam, fiber-optic beamsplitter and concave holographic diffraction grating
Light Sources Deuterium lamp (30 W) for ultraviolet spectrum analysis; tungsten lamp (10 W) for visible spectrum analysis
Wavelength Range 190 to 800 nm variable; continuous in 1 nm steps
Wavelength Accuracy ± 1 nm
Bandwidth 8 nm
Absorbance Discrete settings of 0.001, 0.002, 0.005, 0.01, 0.02, 0.05, 0.1,
Range 0.2, 0.5, 1.0, and 2.0 AU
Autozero Capability 2 AU
Autozero Accuracy ± 100 µAU
Noise < 10 µAU peak-to-peak at 254 nm, 2-second rise time, flowing deionized water
Drift < 100 µAU/hour (after warm-up)
< 100 µAUPC (alter warm-up)
Filter Rise Time Discrete settings of 0.05, 0.1, 0.2, 0.5, 1.0, 2.0, 5.0, or 10.0 seconds
Analog Output Range Discrete settings of 0.001, 0.002, 0.005, 0.01, 0.02, 0.05, 0.1, 0.2, 0.5, 1.0, and 2.0 AUFS
Local Operation Front panel controls and display status of all functions
Remote Operation Four of the seven AD20 functions can be controlled via TTL or Relay contacts
DX LAN Operation All functions controlled by PeakNet Software an a PC, when
(Optional) connected to the AD20 via the Dionex DX LAN interface.
Flow Cell
Cell Body PEEK
Volume and Optical Path Standard bore Gell, used with 4 mm (0.016 in) columns: 9 µL
Length volume, 10 mm (0.002 in) optical path length
Narrow bore cell, used with 4 mm (0.016 in) and 2 mm (0.008 in) columns: 7.5 µL volume, 6 mm (0.002 in) optical path length
Microbore cell, used with 2 mm (0.008 in) columns: 2.5 µL volume, 3 mm (0.01 in) optical path length
Maximum Operating 1.38 mPa (200 psi) with a heat exchanger; 3.45 mPa (500 psi)
Pressure without a heat exchanger
Chemical Compatibility The use of a base stronger than 0.1 M is not recommended, as
it will etch the silica windows.
Heat Exchanger
Coil for 2 mm Columns Volume of 20 µL; dispersion of 2.2 µL at 1.0 mL/min
Coil for 4 mm Columns Volume of 60 µL; dispersion of 5.3 µL at 1.0 mL/min