HPCE512 high performance capillary electrophoresis instrument
Introduction: Based on multi-point detection, the HPCE512 system overcomes the problems of conventional capillary electrophoresis (CE). Compared with other capillary electrophoresis systems, the instrument has greatly improved in quantification, resolution, sensitivity and repeatability. This significant advantage is achieved by collecting more sample data than competing systems and then using dedicated signal processing algorithms to distinguish between analyte-related signal and noise from background. The data quality of legacy CE systems tends to be poor. Even with the same sample, the repeatability of the data is difficult to meet the requirements. Sensitivity is considered insufficient unless expensive, time-consuming labeling techniques are used that adversely affect the properties of the analyte. As a label-free system, HPCE512 can not only reduce the cost of analysis, but also solve the problems of conventional CE. Technical parameter: Physical Properties: Dimensions: length <700 mm; width <500 mm; height <500 mm Weight: <50 kg Sample processing: Sampling system: left and right double turntables, one inlet turntable and one outlet turntable, both directions are available run analysis Number of carousel vials: 24 per sample tray Injection method: gas pressure injection or electric injection Capillary cooling method: Peltier temperature control Electrical requirements: Capillary voltage range (bipolar): 0-±28KV Standard wavelengths 214nm, 254nm and 280nm Voltage Requirements: 85-264 VAC 50/60 Hz Power Requirements: <750 W Operation requirements: Temperature: 14-30℃ Humidity: 0 - 90% (no air conditioning required)
Introduction: Based on multi-point detection, the HPCE512 system overcomes the problems of conventional capillary electrophoresis (CE). Compared with other capillary electrophoresis systems, the instrument has greatly improved in quantification, resolution, sensitivity and repeatability. This significant advantage is achieved by collecting more sample data than competing systems and then using dedicated signal processing algorithms to distinguish between analyte-related signal and noise from background. The data quality of legacy CE systems tends to be poor. Even with the same sample, the repeatability of the data is difficult to meet the requirements. Sensitivity is considered insufficient unless expensive, time-consuming labeling techniques are used that adversely affect the properties of the analyte. As a label-free system, HPCE512 can not only reduce the cost of analysis, but also solve the problems of conventional CE.
