![]() ![]() This adds to the cost and complexity of the manufacturing process and limits the number of lasers that can be made on one wafer. Making an edge-emitting laser typically requires cutting the wafer to expose the emitter. ![]() They were traditionally considered unsuitable for high-end applications where a lot of light was needed, but VCSELs have become more powerful as the technology has matured. VCSELs have been used for decades in everything from optical mice to optical networking gear. Traditionally, edge-emitting lasers have been more powerful. You can make a laser that transmits light out the side of the wafer (known as an edge-emitting laser) or from the top (a vertical cavity surface emitting laser, or VCSEL). What's a VCSEL? If you're building a laser using conventional semiconductor fabrication techniques, you have two basic options. Apple needed to make lidar sensors radically cheaper and smaller in order to put one in each iPhone, and VCSELs helped the company do it. The first three-dimensional lidar sensor was introduced by Velodyne more than a decade ago. The spinning unit cost around $75,000 and was significantly larger than a smartphone. VCSELs helped Apple make radically simpler lidar Apple's decision to adopt the technology-and the possibility that other smartphone vendors could follow Apple's lead-will provide them with a nice tailwind in the coming years. Two of the companies working on high-end VCSEL-based lidar-Ouster and Ibeo-have already gotten more traction than most companies in the crowded lidar business. As VCSEL-based sensors become more common, they are likely to steadily get cheaper and better. As a result, they benefit from the huge economies of scale in the semiconductor industry. One of the big selling points of VCSELs and SPADs is that they can be created using conventional semiconductor fabrication techniques. I found Apple's announcement particularly interesting because I've been working on a story about companies that are using the same combination of technologies-VCSEL lasers and SPAD detectors-to build much more powerful lidar for the automotive market. I'll explain what these are in the next section. It then detects the return flash using an array of sensors called single-photon avalanche diodes (SPADs) supplied by Sony. Repeat this process across a two-dimensional grid and the result is a three-dimensional "point cloud" showing the location of objects around a room, street, or other location.Ī June analysis by System Plus Consulting found that the iPad's lidar sends out light using an array of vertical cavity surface-emitting lasers (VCSELs) made by Lumentum. Because light travels at a constant speed, the round-trip time can be translated into a precise distance estimate. Lidar works by sending out laser light and measuring how long it takes to bounce back. And while no one has done a teardown of the iPhone 12 yet, we can learn a lot from recent iPad teardowns. Apple first introduced the technology with the refreshed iPad in March. Tuesday's presentation offered little detail about how the iPhone's lidar actually works, but this isn't Apple's first device with lidar. And it may enable the creation of a new generation of sophisticated augmented reality apps. ![]() Apple says lidar will enhance the iPhone's camera by allowing more rapid focus, especially in low-light situations. At Tuesday's unveiling of the iPhone 12, Apple touted the capabilities of its new lidar sensor. ![]()
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