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Features :
8-channel optical fibre system i.e. 5 sec reading for the whole plate Biochromatic measurement and calculations available Storage of 100 test protocol and 100,000 sample results Multi-assay feature – up to 12 different assay on a plate Automatic data saving Adjustable shaking time and speed Powerful QC functions and programs
Specifications :
| Plate type | 96 well plate |
| Standard Wavelength | 405, 450, 492, 630 nm |
| Wavelength accuracy | ± 1 nm |
| Resolution | 0.001 Abs |
| Reading speed (Single wavelength) | 5 secs for 96 well plate |
| Photometric Range | 0.000 – 4.000 Abs |
| Accuracy | ± 0.5 % or ± 0.005 A |
| Optic system | 8-channel optic fibre system |
| Band width | < 8 nm |
| Read Methods | End Point, Two Point and Kinetic |
| Calculation mode | ABS, Cut-off, Single standard, Curve, Multi-percent, Percent Logarithm, Linear Regression, Exponent Regression, Power Regression, 4LP Regression |
| Operation | PC operation, bidirectional communications |
| Memory | >100 programs & upto 100,000 test results |
| Interface | RS – 232 and USB |
| Light source | Halogen lamp (8 V / 20 W) |
| Power supply | AC 110 V – 240 V ± 10 %, 50 – 60 Hz |
| Dimensions | 454 x 295 x 146 mm |
| Weight | 7 Kg |
Optional Accessories :
Microfluidic Detection Board
Automatic Sampler
Selection Guide :
Microplate Reader LMRW-A100 is a versatile and reliable instrument designed to meet the demands of various research and clinical applications. It is suitable for use in ELISA, enzyme activity assays, protein quantification, cell viability testing, and other absorbance-based assays commonly conducted in research laboratories, diagnostic centers, and pharmaceutical environments. Its compatibility with 96-well microplates makes it suitable for high-throughput screening, while the wavelength range and photometric accuracy ensure consistent and accurate results. The reader complies with key international certifications (such as CE and ISO standards), pro assurance of safety, quality, and performance. When selecting this model, customers should consider its application in studies that require UV-visible absorbance detection, broad wavelength selection, and automated data handling, making it a dependable choice for routine and advanced experimental workflows.
