Is the RWD System Suitable for Multi-Channel Fiber Photometry?
Exploring brain activity with precision has become increasingly important for neuroscience research, especially when working with multiple experimental subjects or brain regions. At BP LabLine, we focus on providing high-quality fiber photometry system solutions that make these experiments easier and more reliable. Among the options available, the RWD fiber photometry system stands out for its versatility, allowing researchers to monitor multiple fluorescence signals simultaneously without interference. Understanding how this system supports complex experimental designs can help researchers maximize data quality.

Advanced Excitation for Accurate Fluorescence Detection
The RWD fiber photometry setup supports three excitation wavelengths—410nm for reference, 470nm for green fluorescence, and 560nm for red fluorescence. This allows precise separation of different fluorescence signals, which is critical when recording from multiple neurons or animals at once. At BP LabLine, we integrate dual highly sensitive detectors into our fiber photometry system, enabling independent and sequential detection. This design minimizes cross-talk between channels, providing more accurate and reliable measurements than single-detector systems.
Flexible Acquisition Modes for Diverse Experiments
One of the standout features of the RWD fiber photometry system is its variety of acquisition modes. Researchers can choose continuous acquisition, interval acquisition, trigger-based acquisition, delayed acquisition, or timing acquisition, depending on the experimental design. At BP LabLine, our team ensures that the system software is intuitive, allowing live display of DeltaF/F signals. This real-time visualization helps users quickly assess the magnitude of signal changes and make adjustments as needed, without requiring any programming skills in MAT
Multi-Channel and Customizable Control
For experiments involving multiple subjects or multiple brain regions, our fiber photometry system supports up to 9 channels simultaneously. Each channel can be individually adjusted to optimize detection and avoid interference. At BP LabLine, we provide professional acquisition and analysis software that allows easy customization of output signal parameters. The system also supports closed-loop control by triggering external excitation equipment based on signal changes, enabling advanced experimental designs with minimal manual intervention.
Conclusion
The RWD system is suitable for multi-channel fiber photometry when multi-site or multi-signal acquisition is required. At BP LabLine, we are committed to providing a fiber photometry system that empowers researchers to acquire precise and reliable fluorescence signals from multiple animals or brain locations. By combining advanced hardware with versatile acquisition modes, our system helps researchers focus on discovery rather than technical limitations, making multi-channel fiber photometry experiments more achievable than ever.