Exposure Time

Introduction

The exposure time, also known as shutter speed, is the amount of time that a single camera image is exposed to light. In other words, for how long the shutter remains open. A Zivid camera takes multiple images to calculate depth, and the exposure time of an individual image is defined in microseconds from 1 677 to 100 000. The minimum exposure time is camera dependent:

Zivid 2

Zivid 2+

Minimum exposure time (µs)

1 677

1 677

Increasing the exposure time by some ratio will also increase the exposure of the image by the same amount. For example, if you increase exposure time from 10 000 µs to 20 000 µs, the acquisition time will be twice as long. The light intensity will be twice as high or increased by 1 stop.

Tip

Check out the 3D Capture Speed Calculator to see how exposure time affects the total capture time.

Interference from strong ambient light sources

When taking images with a Zivid camera, we are sampling light information in a certain time window. By utilizing this simple concept, it is possible to avoid many issues that can arise from ambient light.

Structured light sensors are sampling systems that operate with similar sampling rates as many utilities such as TVs and lighting. A fluorescent lamp typically connects to the power line, which is an AC power source. In the EU this power source produces electrical voltage as a sine with a frequency of 50 Hz. In other countries, such as the US, the power line frequency is 60 Hz.

Consider a video camera with a frame rate of 30 fps. Direct it at a fluorescent lamp in Europe and hit record. You will find that there appears to be flickering in the video. You have probably experienced this phenomenon when filming with a smartphone inside a garage or warehouse.

Now consider a video camera where the capture rate matches the frequency of the ambient light source. You would end up sampling light with the same phase in each image, and the flickering would appear to be gone. This would make the light appear constant.

The explained concept is called correlated sampling and has favorable effects in structured light 3D scanners. It enables to filter out noise that varies with time from an ambient light source by choosing an exposure time that satisfies the equation below:

\[t_{exp} = \frac{n}{2f_s},\quad n \in \mathbb{N}^{+}\]

where \(n\) is a positive integer, and \(f_s\) is the frequency of the light source. For this reason, it is recommended to use sampling rates in the multiples of the grid period in the presence of strong ambient light sources:

  • Multiples of 10 000 µs in the presence of 50 Hz grid frequency.

  • Multiples of 8 333 µs in the presence of 60 Hz grid frequency.

Light sources that have DC power sources, such as spotlights, or LEDs with ≥1kHz will not cause noise that varies with time.

Interference on a flat surface from strong ambient light

Interference mitigated with the exposure time adapted to the grid frequency

Interference on a flat surface from strong ambient light

Interference mitigated with the exposure time adapted to the grid frequency

Note

This is only necessary in the presence of strong ambient light. Any exposure time will typically suffice in normal working conditions when the camera projector is the dominating light source.

50 Hz

The table below shows some of the recommended exposure times to use in countries that use 50 Hz power line frequencies. Be aware that you can also use other multiples of 10 000 µs, such as 30 000 µs and 50 000 µs.

Exposure time (µs)

10 000

20 000

40 000

80 000

100 000

Stops

0

+1

+2

+3

+3.32

60 Hz

The table below shows some of the recommended exposure times to use in countries that use 60 Hz power line frequencies. Be aware that you can also use other multiples of 8 333 µs, such as 24 999 µs and 41665 µs.

Exposure time (µs)

83 33

16 667

33 333

66 667

83 333

Stops

0

+1

+2

+3

+3.32