Robert Henry Leonowich

US Patent:

6546063, Apr 8, 2003

Filed:

Feb 10, 1998

Appl. No.:

09/021329

Inventors:

Kathleen Otis Lee - Sudbury MA
Robert Henry Leonowich - Muhlenberg Township PA
Ayal Shoval - Whitehall PA

Assignee:

Agere Systems Inc. - Allentown PA

International Classification:

H04L 2508

US Classification:

375346, 375232, 375319, 375 34 J

Abstract:

A data receiver equalization technique utilizes a receiver clock that has a frequency different that the incoming data frequency (i. e. , an âasynchronous clockâ) to asynchronously sample the incoming data waveform. The resulting information about the data, typically including the rise and/or fall times, overshoot and/or undershoot, and amplitude, may be used to equalize a data channel. Other adjustments to the receiver, including the gain level and DC offset compensation, may also be made using the resulting information. An illustrative embodiment using clocked comparators, continuous-time comparators, and a statistical analysis circuit is shown.

US Patent:

6687286, Feb 3, 2004

Filed:

Dec 17, 1999

Appl. No.:

09/465683

Inventors:

Robert Henry Leonowich - Muhlenberg Township PA
Ayal Shoval - Whitehall PA

Assignee:

Agere Systems, Inc. - Allentown PA

International Classification:

H04L 516

US Classification:

375219, 375361

Abstract:

A single, 10/100 twisted-pair driver for Ethernet and Fast Ethernet applications designed in a 0. 25 m, 3. 3V, digital CMOS process is described. The combined driver sources either 10 Mbaud Manchester data or 125 Mbaud MLT3/NRZI data. In 10 Mbaud mode the driver incorporates programmable features such as an additional common-mode current for various linearity performance as function of power supply dissipation. In 125 Mbaud mode of operation, the driver can be configured for different duty cycle distortion and for various rise and fall-times as a trade-off in EMI performance and remote receiver cable length performance. As well, rise/fall-time asymmetry performance is programmable as a trade-off in supply power dissipation. The driver can be run optimally during a transition and sub-optimally when sending multiple â0â symbols to save power. These power dissipation numbers can be reduced through programmable modes when more relaxed performance targets are acceptable.

US Patent:

7176743, Feb 13, 2007

Filed:

Mar 18, 2005

Appl. No.:

11/083816

Inventors:

Robert H. Leonowich - Fleetwood PA, US
Xiaohong Quan - San Diego CA, US

Assignee:

Agere Systems Inc. - Allentown PA

International Classification:

H03K 17/56

US Classification:

327423, 327424, 327112

Abstract:

A driver circuit that has a plurality of output elements that are switched on and off in staggered fashion by signals generated by first and second drive chains of a drive chain configuration. The first drive chain comprises “N” delay elements, each of which produces a time delay equal to tsuch that the total time delay produced by the first drive chain is equal to (N×t). The second drive chain comprises N+1 delay elements, “N” of which produce a time delay equal to tand one of which produces a time delay equal to (t). Therefore, the total time delay produced by the second drive chain is equal to ((N×t)+(t)). The use of the delay element in the second drive that produces the time delay equal to (t) results in smooth transitions in the transition regions where the driver circuit output signal transitions from high to low and from low to high. In addition, the use of this additional delay element reduces the complexity of the driver circuit as well as the amount of power required to operate the driver circuit.

US Patent:

7496168, Feb 24, 2009

Filed:

Apr 27, 2005

Appl. No.:

11/115671

Inventors:

Robert H. Leonowich - Fleetwood PA, US
Zailong Zhuang - Whitehall PA, US

Assignee:

Agere Systems Inc. - Allentown PA

International Classification:

H03D 3/24

US Classification:

375376, 375373, 375374, 375375, 327156, 327158

Abstract:

A signal generator, such as a fractional-N PLL, has, in its feedback signal path, a divider, a phase circuit, and a fractional accumulator that generates control signals for the divider and the phase circuit. The divider control signal controls the divisor value applied by the divider. In one embodiment, a phase selector selects, based on the phase-circuit control signal, one of a plurality of phase-shifted output signals generated by the PLL's main signal path (e. g. , by a multi-phase VCO) and the divider generates the feedback signal for the PLL from the selected signal. In another embodiment, the divider generates a divided signal from one of the phase-shifted output signals, and a phase mixer generates, from the divided signal, a plurality of phase-shifted divided signals and selects, based on the phase-circuit signal, one of the phase-shifted divided signals as the PLL's feedback signal.

US Patent:

7609097, Oct 27, 2009

Filed:

Jul 6, 2004

Appl. No.:

10/884932

Inventors:

Robert H. Leonowich - Fleetwood PA, US
Xiaohong Quan - Macungie PA, US

Assignee:

Agere Systems, Inc. - Allentown PA

International Classification:

H03K 3/00

US Classification:

327108, 326 81

Abstract:

A line driver circuit with an output impedance that is set to a value which is based at least in part on the impedance of one or more current sources of the driver circuit. The current source impedance varies depending on the desired output amplitude of the driver circuit. Once the current source impedance is determined, a resistor is selected to be placed in parallel connection with the current source so that the combination of the resistor and the current source impedance will produce a desired output impedance for the driver circuit. Preferably, the driver circuit includes a second current source and second resistor in parallel with each other and a source termination resistor, such that the combination of the current source impedance values and the resistor values produces a desired output impedance for the driver circuit.

US Patent:

7969337, Jun 28, 2011

Filed:

Jul 27, 2009

Appl. No.:

12/510222

Inventors:

Nayak Ratnakar Aravind - Lancaster PA, US
James A. Bailey - Snowflake AZ, US
Robert H. Leonowich - Fleetwood PA, US

Assignee:

LSI Corporation - Milpitas CA

International Classification:

H03M 1/00

US Classification:

341123, 4552264

Abstract:

Various embodiments of the present invention provide systems and methods for data processing. For example, a data processing circuit is disclosed that includes an analog to digital converter, a digital interpolation circuit, a phase error circuit, and a phase adjustment control circuit. The analog to digital converter samples an analog data input at a sampling phase governed at least in part by a coarse control, and provides a series of digital samples. The digital interpolation circuit interpolates between a subset of the series of digital samples based at least in part on a fine control. The phase error circuit calculates a phase error value. The phase adjustment control circuit is operable to determine the coarse control and the fine control based at least in part on the phase error value.

US Patent:

20020171404, Nov 21, 2002

Filed:

May 2, 2001

Appl. No.:

09/847807

Inventors:

Robert Leonowich - Muhlenberg Township PA, US

International Classification:

G05F001/40

US Classification:

323/281000

Abstract:

An arrangement for adjusting a fixed power supply voltage level to a different level that may be required by a connected circuit module comprises a differential amplifier and resistor divider network. A reference voltage is applied to the positive input of the differential amplifier and an internal node voltage within the resistor divider network is fed back as the negative input. The values of the resistors in the network are specifically chosen to provide for the desired voltage level. Each such arrangement of the present invention may then be individually tailored for the particular circumstance.

US Patent:

20130050004, Feb 28, 2013

Filed:

Aug 23, 2011

Appl. No.:

13/215806

Inventors:

James A. Bailey - Snowflake AZ, US
Nayak Ratnakar Aravind - Allentown PA, US
Robert H. Leonowich - Fleetwood PA, US
Erich F. Haratsch - Bethlehem PA, US

International Classification:

H03M 1/12

US Classification:

341155

Abstract:

Methods and apparatus are provided for processing a signal in a read channel using a selective oversampled analog to digital conversion. The disclosed selective oversampled analog to digital conversion simplifies the analog design by transferring at least a portion of the equalization and/or filtering processes to the digital domain. An analog input signal in a read channel is converted to a digital signal to generate one or more digital samples corresponding to the analog input signal for a given bit interval. The analog input signal is selectively filtered in an analog domain in a first mode and the digital samples are selectively filtered in a digital domain in a second mode. A data detection algorithm is applied to the digital samples to obtain a detected output. The selection of the first mode and the second mode can be, for example, based on channel conditions. The analog to digital conversion can be performed at a baud rate in the first mode and at an oversampled rate in the second mode.