A Novel Flux-Controlled Memristive Emulator for Analog Applications

“…Here, since charge q(t) is relatively small and difficult to be accurately measured, we can use terminal voltage v 1 (t) to represent q(t) according to Eq. (20), which just take a transformation of C 0 scale. Figure 4 depicts the pinched hysteresis loops of memcapacitor at 2 kHz, 3 kHz, and 5 kHz.…”

“…These disadvantages are overcome in some studies which use second-generation current conveyor (CCII). [19][20][21][22] In Ref. 22, a floating analog memristor emulator based on CCII was proposed, which uses fewer active and passive devices.…”

A universal emulator for memristor, memcapacitor, and meminductor and its chaotic circuit

“…Here, since charge q(t) is relatively small and difficult to be accurately measured, we can use terminal voltage v 1 (t) to represent q(t) according to Eq. (20), which just take a transformation of C 0 scale. Figure 4 depicts the pinched hysteresis loops of memcapacitor at 2 kHz, 3 kHz, and 5 kHz.…”

“…These disadvantages are overcome in some studies which use second-generation current conveyor (CCII). [19][20][21][22] In Ref. 22, a floating analog memristor emulator based on CCII was proposed, which uses fewer active and passive devices.…”

A universal emulator for memristor, memcapacitor, and meminductor and its chaotic circuit

Memristor Models and Emulators: A Literature Review

Generic and Practical Emulators for the Current-Controlled Memristor Models