A modular smartphone is a smartphone made using components that can be independently upgraded or replaced as modules. This aims to reduce electronic waste, lower repair costs and increase user comfort. The most important component is the main board, to which others are attached. These are packaged in easy-to-remove modules which can be replaced as needed without having to rework the soldering. Components could be obtained from open-source hardware stores.
History
s housed in tower cases can easily swap parts such as hard drives, memory, and graphics cards. Among early mobile devices, the Handspring Visor PDA had a Springboard Expansion Slot which could give it the capabilities such as a phone, GPS, a modem, or a camera - but only one at a time. The Israeli startup Modu in 2008 created a phone and screen core that could be added to various cases that gave the device features such as a keyboard or camera; the company failed and sold its patents to Google in 2011. In 2013, Phonebloks was the first modular smartphone concept to attract widespread attention. Later in 2013, Motorola Mobility, then a subsidiary of Google, unveiled Project Ara, a concept for a modular smartphone inspired by the Phonebloks concept. The project was retained by Google when it sold Motorola to Lenovo, and underwent further development. In late 2014, the Finnish tech startupCircular Devices Oy announced the PuzzlePhone project, with phones that can be personalized at both operating system and hardware levels. It has received the support of Fraunhofer IZM and was scheduled for release in 2015. However, the release was pushed to 2017 due to missing funding. During 2015, the Dutchsocial enterpriseFairphone developed the Fairphone 2, the first publicly available modular smartphone which was released to sale in December that year. In 2016, two manufacturers unveiled phone lines with modular accessory systems. LG Electronics unveiled its LG G5 smartphone, which allows add-on modules to be installed by removing its "chin" and battery, and attaching the battery to an accessory that is then re-inserted into the phone. LG unveiled camera grip and audio enhancement accessories as part of the launch of the device. Motorola later unveiled the Moto Z, which allows the installation of case-like accessories known as "MotoMods", mounted using magnets to the rear of the device and a pogo pin connector for communication. The Shiftphone 6m was developed by the German social enterprise SHIFT during 2015 and 2016. It is their latest high-end flagship model and the second easy repairable phone on the market since the Fairphone 2. At the Google I/O conference in May 2015, Google unveiled a "Developer Edition" of Project Ara meant for release later in the year, now consisting of a base phone with non-modular components, and extensible with modules for adding supplemental features. Google intended to launch Project Ara for consumers in 2017. Project Ara was ultimately shelved on September 2, 2016. On January 17, 2017, Facebook filed a patent for a modular smartphone design, which was published on July 20 that year.
Derivatives
Similar to modular smartphones, other devices such as modular smartwatches and functional cases have been envisioned. The modular smartwatch goes under the name Blocks and uses smart modules as links in the wristband. Two companies making smartphone cases Nexpaq and Moscase have designs similar to Project Ara and the Moto Z, respectively. As of September 18, 2017, Nexpaq rebranded to Moduware, and no longer produces phone cases. Their new derivative of the phoneblocks concept is a battery with the same modular components as their Nexpaq case.
Components
Component clusters listed by PuzzlePhone: Some example modules:
Critics point out that a modular phone would need to have connections durable enough that it would not fall apart when dropped, put in a pocket or sat upon. Project Ara used latches and electropermanent magnets to achieve this. Existing phones are highly optimized for physical space, making pluggable modules that are highly space-optimal difficult, and configuration and regulatory approval of the radio hardware becomes more complicated. Another concern is that consumers would be overwhelmed by too many choices, or prefer pre-packaged phones. It is unclear how viable the secondary component market would be, until products become available. Some critics worry about loss of control over the full hardware platform, brand erosion, consumers who make poor choices, whether separately purchased components would cost more than a pre-packaged phone would, and whether modular phones would be more prone to breakage. Proponents hope that the technical challenges can be overcome and that a viable market ecosystem will enable finer-grained competition that will benefit consumers with better and cheaper choices.
