#Product Trends
Angstrom released a new model of NMR for academic researchers
Angstrom released a new model of NMR for academic researchers
Specifications
The Control Cabinet Features:
60 MHz digital frequency generation channels based on state-of- the-art FPGA technology with digital pulse sequence generation and digital signal routing
High sensitivity receiver with digital oversampling and digital filtering technology
Technology of Pulse Fourier Transfer NMR
Constant temperature stability: 0.1K/h (4 hours after launch the device)
Easy one-button power-on mode
Green Technology (pre heat power consumption <1000W; low power consumption < 500 W; low acoustic noise, < 40 dB(A)
MAGNET SYSTEM
The Pole diameter of magnet is 12 cm.
Helium Resonance frequency is 60 MHz
Helium transfer line (measurement of J-J coupling and Chemistry Shift)
Size (m): 0.7×0.7×1
H Spectrum Specs
H Frequency 60MHz
H Spectrum Measurement (J-J Hyperfine Coupling Measurements And Chemical Shift Measurement)
Resolution 1.5Hz (0.02ppm)
Evenness 1Hz (0.015ppm)
Sensitivity 10,000: 1 (With 98% Alcohol CH3 Peak Value)
Temperature Control Stability: 0.001K / H After 4 Hours Power-on
Signal To Noise Ratio 10,000: 1 (With 98% Alcohol CH3 Peak Date)
Spinning Side-band 100: 1 (Rotational Frequency Of 100 Cycles Per Second)
Rotational Frequency: 10-200Hz
P Spectrum Specs
P Resonance Frequency: 23MHz
Resolution <0.3HZ (0.011ppm)
Sensitivity 100: 1 (With 85% Phosphoric Acid Date)
Signal To Noise Ratio Of 100: 1, (Subject To The 85% Phosphoric Acid)
1H Broadband Noise Decoupling Power 3W
Can Be Observed NOE Effect And Decoupling Effect, Proton Broadband Decoupling
PC Workstation
2.0 GHz Intel Core2 Duo Processor, 4 GB DDR Memory, 500 GB Hard Disk, DVD +/- RW, LCD display monitor, keyboard and mouse.
Control and Data Analysis Software
Includes RIGHTS-TO-USE LICENCES FOR:
Data acquisition
Data processing , data analysis, simulation and educational tools