Chip's for use inside humans In this post today I will tell you everything I know about the chips implanted in the human body. I used to have fun made chip's from crumbs of iron foil. My chip's were controlled by a magnetic field. They could be used as a means of studying fluid movement. But my chip's are pretty primitive. They were prototypes. Modern chip's are much more complex and are used for completely different needs. Chips implanted in a person cause rejection of the body. Therefore, they are covered with a protective material so that the body does not recognize the foreign body. For this, Celicon, surgical glass or polymers are used. Body chip's can be conventionally divided into semiconductor and liquid chip's. Semiconductor chips include a controller and a flash drive. They are mainly used to identify people, as well as to connect to surgical implants. These chips need a special syringe to be implanted into the body. The needle in such a syringe is much larger than in a medical one. Semiconductor chips use two weak radio communication standards NFS and RFID. In other words, low frequencies. NFS uses 13.6 MHz and RFID 125 kHz. NFS-based chips contain 4-7 bits of information and 8KB flash memory. RFID contains usually 40 bits of information + 1 kb extended memory. These volumes are enough to store the owner's unique digital signature. The firmware of such chip's is carried out remotely. Such chip's cannot be implanted into a person without his knowledge. They are quite voluminous and often cause side effects. The second type of chip's embedded in the human body is called liquid chips, or to be more precise, microfluidic chip's. Microfluidic chips are nano (very small) electrophoretic, pumping, or capillary devices. Passing liquid through made their channels using computational methods of pneumotronics. Channels in such chips are used instead of tracks in microcircuits. The channels of microfluidic chips are used to separate, connect, and create logic operations using body fluids. As well as body temperature, human body pressure, as well as metals from human blood. Such chips can be connected to sensors and indicators to detect various things in the human body, as well as for tracking. For this, two microfluidic transistors, a controller with a unique ID, and a thermoelectric power supply for the chip are enough. Such chips are usually encased in a polymer shell, slightly larger than a DNA molecule. But due to the too small size of the channels, the liquid can clog the pneumotronic logic circuit. Therefore, a large number of identical chips are usually used to eliminate errors. Microfluidic chips are made by etching channels in a material using lasers or chemicals. The second method is less reliable. But this is how the materials of the chip's and the polymers bond together. The technology is very precise, so the creation of liquid chip's requires utmost precision and sterility. And so it is desirable after creating a successful batch, you need to maintain a low temperature so that the material does not decompose before it enters the human body. It is also necessary to fuse the chip's in order not to create additional nano parts. Since they can crumble inside the bloodstream. Transistors inside pneumotronic chips perform logic operations through ferromagnetic material. This way you get a stable binary signal 1 and 0. The magnetic field also controls the direction of the ferrofluids. Liquid chip's sizes start at 1 nm. But that was at the time when I studied this issue in detail 5 years ago. In any case, the microfluidic chip's fits into an ordinary medical needle. Such chips can be inserted unnoticed by humans. This technology has proven itself very well back in 2016. This is all I know about chip's implanted in the human body. You can check all my statements yourself through scientific journals available on the Internet. I believe that illegal chipping of people was technically possible as early as 2015. Who could need it and why? This is a question that I have no answer to. My job was to tell you about chip's for the human body. Thank you very much for reading to the end.