Nowadays, chaotic systems are used in various studies of different disciplines. Today, chaotic systems are used in various studies of
different disciplines. In the literature, chaotic systems with various features have been introduced up to the present. In order to use
these new chaotic systems in real-world engineering applications such as encryption, secure communication and authentication, they
must be realized besides numerical simulations. In the literature, analog chaotic system implementations have been realized mainly
with OPAMP devices. FPGAs and microcontrollers are used mostly in digital designs of chaotic systems. In this study, FPAA (Field
Programmable Analog Array) based design and realization of Sprott N chaotic system was carried out. FPAA based design and
numerical simulation results confirmed each other. As a result, it has been shown that the Sprott N chaotic system can be used based
on FPAA in various engineering applications.Nowadays, chaotic systems are used in various studies of different disciplines. Today, chaotic systems are used in various studies of different disciplines. In the literature, chaotic systems with various features have been introduced up to the present. In order to use these new chaotic systems in real-world engineering applications such as encryption, secure communication and authentication, they must be realized besides numerical simulations. In the literature, analog chaotic system implementations have been realized mainly with OPAMP devices. FPGAs and microcontrollers are used mostly in digital designs of chaotic systems. In this study, FPAA (Field Programmable Analog Array) based design and realization of Sprott N chaotic system was carried out. FPAA based design and numerical simulation results confirmed each other. As a result, it has been shown that the Sprott N chaotic system can be used based on FPAA in various engineering applications
