The Technology: Best GPS Tracker

1. The Technology: Best GPS Tracker The most basic function of a Best GPS Tracker is to listen for signals coming from GPS satellites. These signals are transmitted from the dozens of GPS satellites orbiting the earth. Each satellite is equipped with an atomic clock, and it broadcasts a timestamp and a unique ID to differentiate it from other satellite signals. To pinpoint an exact location, the GPS tracker must connect to multiple satellites, which allows it to calculate its position (latitude, longitude, and altitude) by measuring the time it takes to receive back the timestamped signal from the satellites. It’s brilliant how it all works! For a GPS tracker to share its real-time location, it must connect to another network, usually a cellular network, which—like your mobile phone—requires a monthly subscription to send and receive data. This location data can then be shared in a web browser or through an app on a mobile device conveniently layered over a map. This process may sound complicated and time-consuming, but in reality, it happens near the speed of light. Inside a GPS tracker is a small electronic silicon chip—about the size of a fingernail. The chip requires a source of power like a battery to receive signals, process the data, and send out the location information. That’s why mobile phones, GPS watches, and tracker devices can perform these services. It’s also why there are requirements and limitations on the power, size, and physical positioning of GPS trackers. Like all things in our quickly evolving technology-driven world, electronics are constantly being improved, mass- produced, reduced to smaller sizes, and improved. While we can’t (yet) operate GPS trackers at a micro-scale, it’s not impossible to imagine a future world where GPS is embedded in our money, clothing, or even our skin. However, for now, the battery and antenna requirements keep GPS trackers about the size of a deck of cards. Although GPS trackers come in compact packages, like the Best GPS Trackers the trade-off is a smaller battery and shorter battery life. Battery life depends on multiple factors such as a fixed interval for when the device reports its position, how much time it spends on-call while you’re using the audio feature, and how often its position changes. With all of this in mind, some devices come equipped with a sleep mode to prolong the battery life. This means that

2. while a device is asleep you will not be able to see its location or status. If you are willing to trade a little battery power, manual overrides could bypass or awaken the tracker from sleep mode, but this consumes battery power. In some products, like the GPS Tracking, when programmed to report only once per day, battery life can last 18 months on a single charge. Signal strength is another critical factor in optimizing GPS tracker functionality. Just like when you’re talking on your mobile phone and you lose phone connectivity or cellular network access for a few seconds when you drive through a dead spot, these disruptions can also impact a GPS tracker’s ability to communicate with the satellites. Connectivity can be impacted by mountainous terrain, heavy vegetation, buildings, or being underground.

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