Search Results - "Carlton, B.R."

Resistive-Feedback CMOS Low-Noise Amplifiers for Multiband Applications by Perumana, B.G., Zhan, J.-H.C., Taylor, S.S., Carlton, B.R., Laskar, J.

“…Extremely compact resistive-feedback CMOS low-noise amplifiers (LNAs) are presented as a cost-effective alternative to multiple narrowband LNAs using high- Q…”
Get full text

A Broadband Low-Cost Direct-Conversion Receiver Front-End in 90 nm CMOS by Zhan, J.-H.C., Carlton, B.R., Taylor, S.S.

“…Transistors in aggressively scaled CMOS technologies have f T greater than 150 GHz, which exceeds requirements for most existing commercial applications below…”
Get full text

A 5-GHz 108-Mb/s 2 \times2 MIMO Transceiver RFIC With Fully Integrated 20.5-dBm Power Amplifiers in 90-nm CMOS by Palaskas, Y., Ravi, A., Pellerano, S., Carlton, B.R., Elmala, M.A., Bishop, R., Banerjee, G., Nicholls, R.B., Ling, S.K., Dinur, N., Taylor, S.S., Soumyanath, K.

“…Multiple antenna transceivers combined with MIMO signal processing offer the potential for increased data rates and/or range in wireless systems. This paper…”
Get full text

A 5-GHz 108-Mb/s 2[Formula Omitted]2 MIMO Transceiver RFIC With Fully Integrated 20.5-dBm [Formula Omitted] Power Amplifiers in 90-nm CMOS by Palaskas, Y, Ravi, A, Pellerano, S, Carlton, B.R, Elmala, M.A, Bishop, R, Banerjee, G, Nicholls, R.B, Ling, S.K, Dinur, N, Taylor, S.S, Soumyanath, K

“…Multiple antenna transceivers combined with MIMO signal processing offer the potential for increased data rates and/or range in wireless systems…”
Get full text

A 2.2dB NF, 4.9-6GHz direct conversion multi-standard RF receiver front-end in 90nm CMOS by Carlton, B.R., Duster, J.S., Taylor, S.S., Zhan, J.-H.C.

“…A multi-standard direct conversion receiver achieves 2.2 dB NF at 6 GHz with a 15 kHz flicker noise corner. 1 dB RF bandwidth is 4.9-6 GHz, power dissipation…”
Get full text

Low-Cost Direct Conversion RF Front-Ends in Deep Submicron CMOS by Jing-Hong Zhan, Carlton, B.R., Taylor, S.S.

“…This paper reviews architectures and circuit techniques suitable for highly integrated broadband receiver front-ends. Direct conversion simplifies the receiver…”
Get full text

A 5GHz 108Mb/s 2x2 MIMO Transceiver with Fully Integrated +16dBm PAs in 90nm CMOS by Palaskas, Y., Ravi, A., Pellerano, S., Carlton, B.R., Elmala, M.A., Bishop, R., Banerjee, G., Nicholls, R.B., Ling, S., Taylor, S.S., Soumyanath, K.

“…A 5GHz 2times2 MIMO transceiver in 90nm CMOS supports spatial multiplexing and diversity, achieving 54/108Mb/s with -75/-63dBm sensitivity for an…”
Get full text

A 9.2 mW, 4-8 GHz Resistive Feedback CMOS LNA with 24.4 dB Gain, 2 dB Noise Figure, and 21.5 dBm Output IP3 by Perumana, B.G., Zhan, J.-H.C., Taylor, S.S., Carlton, B.R., Laskar, J.

“…A 9.2 mW resistive feedback CMOS low-noise amplifier with a 3-dB bandwidth of 3.94 GHz (4.04 -7.98 GHz) is presented. At 5.5 GHz, the fully integrated LNA…”
Get full text

Multi-Band (1-6GHz), Sampled, Sliding-IF Receiver with Discrete-Time Filtering in 90nm Digital CMOS Process by Lakdawala, H., Zhan, J., Ravi, A., Anderson, S., Carlton, B.R., Nicholls, R.B., Yaghini, N., Bishop, R.E., Taylor, S.S., Soumyanath, K.

“…A prototype 1-6GHz multi-band sampled sliding-IF receiver with discrete-time channel select filtering in a 90nm low resistivity substrate, strained-Si digital…”
Get full text

A 1.4V, 2.4/5 GHz, 90nm CMOS system in a package transceiver for next generation WLAN by Ravi, A., Carlton, B.R., Palaskas, Y., Banerjee, G., Bishop, R.E., Elmala, M.A., Nicholls, R.B., Rippke, I.A., Lakdawala, H., Franca-Neto, L.M., Taylor, S.S., Soumyanath, K.

“…We present a 2.4/5GHz system in a package transceiver with integrated 5GHz PA and 10-100MHz signal bandwidth, suitable for next generation WLAN applications…”
Get full text

A 5GHz, 108Mb/s 2×2 MIMO CMOS Transceiver by Palaskas, Y., Ravi, A., Pellerano, S., Carlton, B.R., Elmala, M.A., Bishop, R., Banerjee, G., Nicholls, R.B., Ling, S., Seddighrad, P., Suh, S.-Y., Taylor, S.S., Soumyanath, K.

“…MIMO wireless transceivers employ multiple antennas and advanced digital signal processing to achieve higher data rates and superior link reliability compared…”
Get full text