Nanochap‘s ENS001 Neurostimulation Chip Is Used in Simulation Games to Provide More Realistic Somatosensory Feedback
Under the rapid development of modern technology, simulation games are becoming more and more popular as an emerging form of entertainment. However, the experience and immersion of traditional simulation games are always lacking, and users often want to feel the excitement and adventure of the game more realistically and get more realistic feedback. To address this issue, Nanochap's neurostimulation chip, ENS001, was born, and its use not only provides more realistic somatosensory feedback but also avoids pain and injuries in the game, providing a safer gaming experience.
This article introduces the Nanochap neurostimulation chip ENS001 embedded in a bulletproof undershirt as an example of a real-life CS, making it a perfect fit for the user's body and superior wearability. When the user senses being hit in the simulation game, the ENS001 chip will generate micro-current in the corresponding body parts, simulating the feeling of being hit. This realistic feedback greatly improves the experience of the game and makes the user more engaged.
Secondly, ENS001 uses microcurrent to simulate the feeling of being hit, avoiding the pain and injury caused by paintballs and blanks in traditional simulation games. In games such as real life CS, paintball, and blank hits can cause discomfort and pain to players, especially more pronounced for first-time players. However, ENS001's micro-current stimulation technology greatly reduces this pain and injury and ensures the safety of the game. Even during intense gaming confrontations, users can enjoy a stimulating experience without being bothered by actual injuries.
Another advantage of the ENS001 chip is its ability to customize the waveform. Depending on the part of the body that is "hit", the chip can generate different types of stimulation waveforms, which can be short or long, intense or gentle, greatly enhancing the realism and diversity of the game. Users can customize the stimulation waveforms according to the actual game requirements, making the game experience closer to the actual situation and more challenging.
Overall, the use of Nanochap's neurostimulation chip ENS001 in simulation games provides users with more realistic somatosensory feedback. The undershirt style design not only elevates the simulation gaming experience to a new level, but also effectively avoids the pain and injuries associated with paintballs and blanks in traditional gaming, and the ENS001's customizable waveforms add more variety and challenge to the game. In addition to outdoor competitive type games, the same product can also be applied in electronic body games, such as boxing, golf, tennis, boating, etc. It is believed that with the further promotion and application of this product, the simulation games will become more exciting, realistic, and safe.
Nanochap Yuanjin Programmable Universal Stimulus Chip ENS001 Advantages and Features
1. Highly integrated: 32MHz ARM processor, multi-channel constant current source output stimulus driver circuit, on-chip charging circuit, configurable boost DC converter, LCD screen driver, 12-bit AD signal acquisition, and temperature sensor modules.
2. Highly safe and reliable: Dynamic charge replication technology is used to realize charge balance. The chip comes with over-temperature, over-voltage, over-current, and other detection and safety systems, with high reliability and stability, suitable for long-term operation and application scenarios requiring high reliability.
3. Highly programmable: It not only covers the traditional sine wave/square wave/triangle wave and various modulated waveforms but also supports the output of arbitrary current waveforms from DC to 250kHz.
4. High Flexibility: Three types of driver circuits are suitable for high voltage, medium voltage, and low voltage applications. Multi-channel cooperation can realize multi-mode stimulation, which can meet a variety of in vitro or in vivo nerve/muscle electrical stimulation and neuromodulation application scenarios.
5. High adaptability: The chip series has a variety of specifications, including single-channel, dual-channel, four-channel, and full-featured, and can be adapted to a variety of hardware and software to provide customers with flexible, cost-effective integration solutions.
Product Parameters
Operating voltage range: 3-5V
Operating Temperature: -40℃~ 85℃
Low Power Mode: Sleep, Stop, Standby
Core: ARM Cortex-M0 (32MHz)
Digital Interface: UART*2, I²C*2, SPI*2
LCD driver interface: COM*4, SEG*16
Stimulus Driver: 10~60V, 4-channel (33μA ~ 67mA output current), 8-channel (50μA ~ 52mA), 23-channel driver (8μA ~ 2mA), up to 250kHz sine/triangle/square or arbitrary waveforms
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