Mass analyzer is the component of the mass spectrometer that takes ionized masses and separates them based on charge to mass ratios and outputs them to the detector where they are detected and later converted to a digital output. There are five general types of mass analyzers that can be used for the separation of ions in a mass spectrometry.
1. 5.7-inch LCD display indicates temperature,time andgas flow.
2. Self-test, power protection, keyboard lock, automatic ignition andantipower mutation interference function.
3. Can connect with Internet,realize data transfer and program upgrade automatically.
4. Equipped with a flame ionization detector (FID), and TCD, ECD, FPD, NPD are optional. Can install3 detectors at the same time.
5. Can install packed column and capillary column at the same time
6. Double column compensation function,which can effectively restrain baseline drift and theinfluence of background noise.
7. Large capacity oven (300*280*180mm) can hold 2 pcs 0.32mm diametercapillary column (length: 80m).
8. Better thermal insulation effect: when the temp. of oven,vaporizing chamber and detector reach 300℃, the max. temp. of outer
chamber is 40℃.
9. With chromatography workstation software to process data.
The main technical indicators:
• operating display: 5.7 inch periodic lattice Chinesize color liquid crystal (can be equipped with touch screen)
• temperature control area: 6 ways
• temperature: room temperature above 5 ℃ ~ 400 ℃, incremental:1 ℃, accuracy :± 0.1 ℃
• temperature-programmed order: 16 order
• Temperature program rate: 0.1 ~ 39 ℃ /min (common type); 0.1 ~ 80 ℃ /min (high speed)
• the gas control: optional pressure flow control mode of the mechanical valve control mode, electronic
• gas pressure, flow measurement: pointer type pressure meter or electronic pressure, flow pattern
• all electronic gas pressure, flow measurement system The single module maximum measuring way: 16 Range: 0 ~ 0.3MPa (pressure); 0 ~ 500sccm (flow) Resolution: 0.01kPa (pressure); 0.01sccm (flow)
• EPC, EFC work mode: 3kinds:constant current mode, constant voltage mode, bypass mode
• EPC, EFC working gas: 4kinds:nitrogen, air, hydrogen, helium, argon
• EPC, EFC L: 4 order EPC, EFC: pressure control range: 0 ~ 0.6MPa; flow rate of 0 ~ 100sccm or 0 ~ 500sccm (air);
• EPC, EFC control precision pressure 0.01kPa; flow rate: 0.01sccm;
• external events: 4 road, 4 road; auxiliary control output
• injector types: packed column sample, the capillary inlet, six valve gas sampling, automatic headspace sampling.
• detector number: 3 (up); FID, TCD, ECD, FPD and NPD.
• start sampling: manual, automatic optional
• communication interface: Ethernet: IEEE802.3
• linear range: To sulfur≥102, To P ≥103
ven | Temp. Range | RT~450℃ |
Temp. Accuracy | ≤±0.1℃ | |
Temp. Program | 16-phase | |
Max. Temp. Heating Rate | 40℃/min | |
Detector | Hydrogen Flame Ionization Detector (FID) | Detection limit:≤3×10-12g/s (Sample:n-hexadecane) |
Baseline drift:≤1x10-13A/30min | ||
Linear range:≥107 | ||
ThermalConductivityDetector (TCD) (Optional) | Sensitivity: >10000mv.ml/mg (Sample: n-hexadecane) | |
Linear range:≥105 | ||
Electron Capture Detector (ECD) (Optional) | Detection limit:≤1×10-14g/ml (Sample:n-hexadecane δ-666) | |
Linear range: ≥104 | ||
Flame Photometric Detector (FPD) (Optional) | Detection limit:≤2×10-11g/s(S ofthiophene) Detection limit:≤1×10-12g/s(P ofmethyl parathion) | |
Linear range (S): ≥103 Linear range (P): ≥104 | ||
Nitrogen and Phosphorus Detector (NPD) (Optional) | Detection limit:≤1×10-12g/s(Azobenzene) Detection limit:≤1×10-12g/s(Marla sulfur phosphorous) | |
Linear range: ≥103 | ||
Power Supply | AC110/220V±10%, 50/60Hz | |
Standard Accessory | FID detector, Chromatography workstation software | |
Optional Accessory | Sample injection system, TCD, ECD, FPD and NPD detector, Chromatographic column. | |
Package Size (W*D*H) | 800*570*650mm | |
Gross Weight | 75kg |
-Manuals
Mass Spectrometry Analyzer
-Data sheet
Mass spectrometry (MS) is an analytical technique that is used to measure the mass-to-charge ratio of ions. The results are presented as a mass spectrum, a plot of intensity as a function of the mass-to-charge ratio.
Specific applications of mass spectrometry include drug testing and discovery, food contamination detection, pesticide residue analysis, isotope ratio determination, protein identification, and carbon dating. Listed below are some application areas in which mass spectrometry has been used to discover, deduce, and quantify sample compounds.