Current‐mode wave field programmable analogue arrays

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SUMMARYA new current-mode automatic frequency tuning system is proposed in this paper. The system is based on the master-slave technique and is suitable for integrated current-mode filters based on current mirrors. Automatic control is accomplished by controlling the bias current of the current mirrors employed in the master and slave filters. The proposed scheme has been applied in the leapfrog and wave filters and the corresponding simulation results confirm its validity.

Section: Simulation Results and Discussionmentioning

confidence: 99%

Section: Simulation Results and Discussionmentioning

confidence: 99%

A current‐mode automatic frequency tuning system for filters with current mirrors

Souliotis

2010

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“…For instance, in [15] the CAB used can be tuned using programmable current source. A grounded resistor and/or capacitor can be connected to the summing node at the center of each CAB to realize different analog circuits like amplifiers or integrators.…”

Section: Proposed Dpccii-based Fpaamentioning

confidence: 99%

Digitally programmable second generation current conveyor‐based FPAA

Mahmoud

Soliman

2012

A novel fully differential digitally programmable current conveyor (DPCCII) is presented in this paper. The programmability of the proposed DPCCII is achieved using three-bit MOS R-2R ladder current division network. The DPCCII is used to realize a field programmable analog array (FPAA). The FPAA consists of seven configurable analog blocks arranged in a hexagonal form. The FPAA power consumption is 72.3 mW from 1 V voltage supply. A second-order programmable universal filter is realized using the proposed FPAA as an application. All the circuits are realized and simulated using 90 nm IBM CMOS technology model under balanced supply voltage of AE0.5 V.Thus, the filter cutoff frequency and quality factor can be tuned using a o and a Q, respectively. The filter is mapped on the FPAA such that 'A1, B6, A4, D5 and D4' are the DPCCIIs used and they are programmed using a 1 , a 2 , a 3 , a 4 and a 5 , respectively, as shown in Figure 10. The filter is simulated Figure 9. DPCCII-based second-order tunable universal filter.

“…Present requirement for realizing analog filters with capabilities for low‐voltage operation and electronic adjustment of their frequency characteristics has gained a significant research effort toward these goals 1–16.…”

Section: Introductionmentioning

confidence: 99%

Design of Sinh‐Domain filters using complementary operators

Kasimis

Psychalinos

2011

SUMMARYA new systematic method for designing Sinh-Domain filters is introduced in this paper. This is achieved by employing an appropriate set of complementary operators, in order to transpose the conventional functional block diagram representation of each linear operation to the corresponding one into the Sinh-Domain. The proposed method offers the benefits of facilitating the design procedure of high-order Sinh-Domain filters and of the absence of any restriction concerning the type and/or the order of the realized filter function. As an example, a third-order Sinh-Domain leapfrog filter is designed by employing the proposed set of operators. Two possible realizations are given and their performance has been evaluated and compared through simulation results.