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Distance Measurements with APDs and PLDs

Distance Measurements Prevent Collisions

For vehicles to drive autonomously or unmanned aerial vehicles to fly alone, they must be able to recognize obstacles in order to avoid them. Monitoring surroundings using LiDAR systems has many advantages: These systems are not only inexpensive, but they can also measure distances of up to 100 meters. LiDAR is short for Light Detection and Ranging.

During measurement, pulsed laser diodes (PLDs) are used as emitters and avalanche photodiodes (APDs) as receivers; this measurement principle is based on optical time-of-flight (ToF) measurements.
 

Optical ToF Measurements

Beyond Borders

The principle of optical ToF measurement can be easily explained: A PLD sends a single short light pulse; ideally, this light propagates undisturbed along the shortest path through the air until it detects an obstacle. At the obstacle, light is reflected and the pulse returned to be detected by an APD. The electronics that connect APDs and PLDs measure the time ∆t between sending and receiving the returned light pulse. Because the propagation speed of light is already known, the distance l of an obstacle can be easily calculated from measured time.

Basic Physical Principles

Beyond Borders

Light propagates in a vacuum at light speed c. Measurements in a vacuum yield the following value for c:
c = 299,792,458 meters/second

In the physical sense, a vacuum is space without matter; therefore, it has an optical density of n = 1.
The smallest dust particles found in the air change this optical density, which is known as the refractive index n. The wavelength and phase speed are smaller than in a vacuum; therefore, the speed of light propagation also changes: cair = c/nair

Calculation example

Beyond Borders

Imagine for a minute that a light pulse is detected at ∆t = 500 ns. The obstacle has a distance of l, the measured time refers to the two-way (back and forth) path of light (i.e., 2*l).

The distance can be measured in your head if you allow for the following approximate values:
c = 300,000,000 m/s = 3*108 m/s
n = 1

The following equation applies:
∆t = 2*l*n/c = 500 ns = 5*10 –7 s
d = 0.5 * (c * ∆t) / n

The distance can be calculated as:
d = 0.5* (3*108 m/s * 5*10 –7 s)/1
d = 0.5*3*5*101 m
= 75 m

It is impressive to realize just how small the intervals are that are required for measurements at short distances; these intervals extend into the picosecond range, which is the trillionth part of a second.

Autonomous Driving

Beyond Borders

The study published by Frost & Sullivan on the "Automotive LiDAR Market for ADAS and Automated Driving, Global 2016" expects the advance of LiDAR technologies in autonomous driving. Application fields range from lane departure warning systems to autopilot functions. Their widespread introduction is expected by the year 2025.

Source: frost.com/mb5c

Mike Hodges
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Further Product Information

Beyond Borders

R Package R Package
Pulsed laser diodes (PLDs) are available in the wavelengths 850 nm, 905 nm and 1550 nm. All of our PLDs are developed and manufactured at LC. Customer-specific requests can be accommodated.
Si Avalanche Photodiodes Si Avalanche Photodiodes
Similar to photomultipliers, avalanche photodiodes are used to detect extremely weak light intensities. Si APDs are used in the wavelength range from 250 to 1100 nm, and InGaAs is used as semiconductor material in APDs for the wavelength range from 1100 to 1700 nm.

LASER COMPONENTS Germany - Your competent partner for optical and optoelectronic components in Germany.

Welcome to LASER COMPONENTS Germany GmbH, your expert for photonics components. Each product in our wide range of detectors, laser diodes, laser modules, optics, fiber optics, and more is worth every Euro (€/EUR). Our customized solutions cover all conceivable areas of application: from sensor technology to medical technology. You can reach us here:

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LASER COMPONENTS Germany GmbH
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LASER COMPONENTS Germany GmbH
82140 Olching
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