Introduction Hema9600 gradient PCR instrument module can be performed simultaneously with a gradient of up to 12 different annealing temperature of the PCR reaction, the gradient module, enabling adjustment of the temperature gradient and gradient parameters such as width, 12 freely programmable temperature gradient to achieve different samples while the annealing temperature and thermal cycling. Only an experiment can determine whether a particular system corresponding optimal annealing temperatures. So that in a short time optimization of PCR experiments, greatly improving the efficiency of PCR research. Product integration of today's most advanced semiconductor technology (Peltier-Based), imported core parts, to ensure that the rate of amplification products, the reliability of the analysis results; Features 1 The most advanced Peltier-Based Semiconductor Technology; 2 Convenient and flexible module replacement device, easy to replace the required modules; 3 High-resolution large LCD color display; 4, Intuitive, user-friendly interface, programming is simple and quick; 5, With power and memory function; 6, Low noise, low power consumption, long life; Technical Parameter 1 Capacity:96×0.2ml,+77×0.5ml Well Module;or Module,384Module for option 2 Temp range:0℃ ~100℃ (RT≤30℃) 3 Heating rate:≥4.0℃ /s 4 Cooling rate:≥3.5℃ /s 5 Uniformity:≤±0.2℃ 6 Accuracy:±0.2℃ . 7 Gradient temp range:30~100℃ 8 Gradient spread:1-30℃ 9 Heated lid temp:30~110℃,Temp control:block, tube,calculated 10 User programs:200 11 Max.No.of Cycle:99,Max segments:9 12 Screen, 320×240pels LCD 13 Communication:RS232 and USB2.0. 14 Size:380mm(L) × 270mm(W) ×250mm(H) 15 Weight:7.2kg
Introduction Hema9600 gradient PCR instrument module can be performed simultaneously with a gradient of up to 12 different annealing temperature of the PCR reaction, the gradient module, enabling adjustment of the temperature gradient and gradient parameters such as width, 12 freely programmable temperature gradient to achieve different samples while the annealing temperature and thermal cycling.