JXZJY-A In Situ Hybridizer Introduction: The JXZJY-A in-situ hybridization instrument uses microprocessor technology combined with PID control to achieve denaturation and hybridization processes on 12 glass slides. The sealed upper cover and humidifying components ensure a more ideal hybridization environment, integrating three operating modes: denaturation/hybridization, hybridization, and multi-step operation, suitable for various in situ hybridization experiments. characteristic: 1. Full touch screen operation, friendly interpersonal operation interface; 2. Provide Chinese/English operation menu options; 3. It has a power-off recovery function. In the event of a power outage during use, the device can automatically resume operation according to the original set program after receiving a call; 4. Support automatic cooling function after running; 5. Support automatic preheating function; 6. The platform has high temperature control accuracy and small temperature fluctuations; 7. It can support the storage function of 105 custom programs; 8. Can process 12 glass slides simultaneously; 9. It integrates three operation modes: denaturation/hybridization, hybridization, and multi-step operation. Technical parameters: Temperature control range: Room temperature+5 ℃~100 ℃ Temperature control accuracy: ≤± 1 ℃ Temperature uniformity: ≤± 1 ℃ Sample size: 12 pieces Input power: 350W Dimensions: 440X220X120mm Time setting: 1min~99h59min Temperature setting range: 0 ℃~100 ℃ Heating time: ≤ 2 minutes (from 37 ℃ to 95 ℃) Cooling time: ≤ 6 minutes (cooling from 95 ℃ to 45 ℃) Fuse: 250V 3A Ø 5X20 Weight: 4.5kg
Introduction: The JXZJY-A in-situ hybridization instrument uses microprocessor technology combined with PID control to achieve denaturation and hybridization processes on 12 glass slides. The sealed upper cover and humidifying components ensure a more ideal hybridization environment, integrating three operating modes: denaturation/hybridization, hybridization, and multi-step operation, suitable for various in situ hybridization experiments.
