Nikon D300 Complete Manual page 70

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noise, as it is the underlying electron current produced

without light). On a D300, this results in the following values

for the green channel in my testing (rounded to the nearest

I want you to notice three things about this chart:

The reported range in this chart is higher than you can

actually use. Eleven stops of range seems pretty good, but

it's not necessarily usable camera dynamic range. At the

bright end (as we near full well capacity) photodiodes get

non-linear. At the dark end, signal levels near or equal to

the noise level are unacceptable visually (i.e. too visually

Higher ISO values mean less dynamic range captured.

Noise increases with ISO, thus the possible capture range

gets smaller. As you can see, this is probably trivial (just

over a stop) at up to as high as ISO 800, but each ISO

boost does rob you of more and more capture capability.

14-bits is marginally better than 12-bits. There are some

very minor differences between 12-bit and 14-bit

captures, and those differences get numerically smaller

(but not in percentage) as you boost ISO.

With a DSLR, you are in charge of getting the exposure

"right." That means that you have to consider what the D300

can capture (camera dynamic range) versus what you're trying

to photograph (scene dynamic range). I'll have much more to

say about exposure as we proceed to learn about the camera

(see "Metering and Exposure" on page <237>, for example).

I'm hesitant to report with more precision as I don't think that my testing

procedures are good enough to be more accurate. Besides, at this stage of our

discussion, we don't need more accuracy, just the basic gist.

1 EV = 1 stop.

Thom Hogan's Complete Guide to the Nikon D300

Troubleshooting