Bridged T-coil: Difference between revisions
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[[File:454-tcoil.jpg|thumb|400px|right|Bridged T coil in [[454]] circuit]] | [[File:454-tcoil.jpg|thumb|400px|right|Bridged T coil in [[454]] circuit. L337 and C337 constitute a bridged T coil. L336 is just a tapped T coil.]] | ||
The '''(bridged) T-coil''' is a circuit topology that extends signal bandwidth. | The '''(bridged) T-coil''' is a circuit topology that extends signal bandwidth. | ||
A bridged T coil is a circuit configuration with a capacitor from input to resistive load and extends signal bandwidth (as does an unbridged T coil). | |||
The bridged T coil can also turn a complex load impedance such as an RC or a series RLC into a purely resistive load at all frequencies. | |||
A regular (not bridged by a capacitor) T coil cannot do the latter. | |||
==Links== | ==Links== |
Revision as of 09:06, 15 September 2019
The (bridged) T-coil is a circuit topology that extends signal bandwidth.
A bridged T coil is a circuit configuration with a capacitor from input to resistive load and extends signal bandwidth (as does an unbridged T coil). The bridged T coil can also turn a complex load impedance such as an RC or a series RLC into a purely resistive load at all frequencies. A regular (not bridged by a capacitor) T coil cannot do the latter.
Links
- "Who Wakes the Bugler?", in The Art and Science of Analog Circuit Design, Jim Williams (Ed.), July 1998. ISBN 978-0-7506-7062-3. → Google Books
- B. Razavi, The Bridged T-Coil, A Circuit for All Seasons. IEEE Solid-State Circuits Magazine, Fall 2015
- P. Starič, E. Margan, Wideband Amplifiers, Part 2: Inductive Peaking Circuits
- Dennis Feucht, Handbook of Analog Circuit Design. New York: Academic Press, 1990
- E. L. Ginzton, W. R. Hewlett, J. H. Jasberg, J. D. Noe, Distributed Amplification. Proceedings of the IRE, pp 956-969, August 1948.