A Field-Programmable Analog Array of 55 Digitally Tunable OTAs in a Hexagonal Lattice

A Field-Programmable Analog Array of 55 Digitally Tunable OTAs in a Hexagonal Lattice

This paper reports on a field-programmable analog array (FPAA) for high-frequency continuous-time analog filters. A rapid-prototyping hardware is presented, which implements a unique hexagonal lattice topology of 55 tunable G m cells for reconfigurable instantiation of G m -C filters in a 0.13 mum C...

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Veröffentlicht in:IEEE journal of solid-state circuits 2008-12, Vol.43 (12), p.2759-2768
Hauptverfasser: Becker, J., Henrici, F., Trendelenburg, S., Ortmanns, M., Manoli, Y.
Format: Artikel
Sprache:eng
Schlagworte:
Amplifiers
Analog circuits
Applied sciences
Band pass filters
Bandwidth
Circuit properties
CMOS technology
Continuous-time
Design. Technologies. Operation analysis. Testing
Electric, optical and optoelectronic circuits
Electronic circuits
Electronics
Exact sciences and technology
field programmable analog array (FPAA)
Field programmable analog arrays
Frequency
Frequency filters
Hardware
Integrated circuits
Lattices
Network topology
operational transconductance amplifier (OTA)
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Transconductance
Tunable circuits and devices
{\rm G}_{\rm m}{\hbox{-}}{\rm C} filter
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Beschreibung
Zusammenfassung:This paper reports on a field-programmable analog array (FPAA) for high-frequency continuous-time analog filters. A rapid-prototyping hardware is presented, which implements a unique hexagonal lattice topology of 55 tunable G m cells for reconfigurable instantiation of G m -C filters in a 0.13 mum CMOS technology. The typical power dissipation is 70 mW at a 1.2 V supply. The chip structure allows intuitive mapping of G m -C filter schematics with up to seven independent nodes, immediate download to the hardware, and evaluation on the working prototype. Implementations of first- and second-order low-pass and sixth-order bandpass filters are presented and show the feasibility of the array for frequencies up to the order of one hundred MHz.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2008.2005697