Introduction
Initial tests conducted by Bill Claff and forum regular Horshack indicate that the Nikon Z6 III may have a significantly lower dynamic range compared to its predecessor, the Z6 II, which also featured a 24MP sensor.
Sensor Performance
The Z6 III’s faster sensor readout seems to come with higher levels of read noise. This is evident in what Nikon refers to as the “Partially Stacked” sensor of the Z6III. According to Bill Claff’s “photographic DR” metric on his photons to photos site, the Z6III reports a maximum dynamic range of 10.4EV, whereas the Z6 II achieved 11.3EV.
Understanding Dynamic Range
It’s crucial to differentiate dynamic range from overall image quality. Two cameras might show the same dynamic range cut-off, yet one could have significantly better tonal quality across the brightness range. Therefore, it’s premature to draw conclusions about the Z6III’s overall image quality based solely on its dynamic range numbers.
Speed vs. Dynamic Range Trade-Off
A notable change in the Z6III is its noisier shadows compared to its predecessor and the Nikon Zf, an outcome of the increased read noise. This trade-off is made for high-speed shooting modes, improved rolling shutter for both video and e-shutter stills, and potentially better AF performance compared to the Zf.
Dual Conversion Gain Design
The Z6III features a dual conversion gain design. The higher gain step helps mitigate the read noise at lower ISOs, aligning its performance with the Z6 II. However, the peak dynamic range figures, typically measured at base ISO, remain a critical metric.
Future Testing
While there is confidence in the reported findings from experienced users, these results are yet to be independently verified. The team plans to test the Z6 III thoroughly to determine the practical significance of these differences in dynamic range and overall image quality.
Conclusion
In conclusion, while early tests suggest a trade-off between speed and dynamic range in the Nikon Z6III, further testing will provide a clearer picture of its overall performance and image quality.