James E Mandry

7346873, Mar 18, 2008

Feb 24, 2004

10/785829

James E. Mandry - North Andover MA, US

Altera Corporation - San Jose CA

G06F 17/50
G06F 9/45

716 6, 716 5, 716 17

A digital storage medium for storing electronic data for use with a clock tree design tool to design a clock distribution network within an integrated circuit. The electronic data implements a library of shim cells, wherein each of the shims cells represents a physical embodiment of a different clock driver cell such that all of the shim cells in the library are interchangeable in the clock distribution design without requiring any change in the placement or routing within the integrated circuit to maintain compliance with design requirements for the integrated circuit. Each cell within a library represents a structure that introduces a particular delay time in the clock signal. The library contains cells having a range of delays that span a range that is sufficiently large to deal with the range of clock skews typically encountered during integrated circuit design.

6657535, Dec 2, 2003

Aug 30, 1999

09/386113

L. Hugh Magbie - Cambridge MA
James E. Mandry - Lawrence MA
Douglas W. Prince - South Sutton NH

Hawkeye Global, Inc. - Salem NH

G05B 1900

340 531, 34082549, 34235703, 455 121, 307 101

A system for providing protected two-way communication between a shared control database (âbase stationâ) and at least one remotely located protector module/remote unit uses a two-way pager system in conjunction with a communications host and a security algorithm. The security algorithm has the capability of producing a time-varying password, say every sixty seconds, and can be made part of a microprocessor housed in the protector module. Each protector module has a unique inherently assigned identification number (ID) which is verified and authenticated by the control database each time a message is received from the remotely located associated protector module. In addition, the system makes sure that each communication between the control database and a remote unit has a component which matches a predetermined electronic identification number (EIN). Data transmission from the remote unit may use a universal asynchronous receiver/transmitter (UART) arrangement or other buffer arrangement for efficient data transmission.

20110258930, Oct 27, 2011

Mar 29, 2011

13/074114

Richard Hugh Francis - Candiac, CA
James Edward Mandry - N. Andover MA, US
David James Holigan - Atkinson NH, US
Douglas Webster Prince - Bradford NH, US
Ed Allen Vrablik - Acton MA, US

G08B 13/08
E06B 7/16

49 14, 494751

A container seal device is provided that comprises a seal device for a shipping container, comprising a first unit that is affixed to a shipping container. A control system is contained in the first unit containing a control system. A second unit is provided that is configured to engage with an element of a door of a shipping container to which the first unit is affixed and to electrically connect with the control system in the first unit. The control system in the first unit is configured to detect a breach of the second unit indicative of access being made to the shipping container.

20080252084, Oct 16, 2008

Oct 29, 2007

11/926669

Richard Hugh Francis - Candiac, CA
James Edward Mandry - N. Andover MA, US
David James Holigan - Atkinson NH, US
Douglas Webster Prince - Bradford NH, US
Ed Allen Vrablik - Acton MA, US

B65D 27/30
G06F 7/00
H05K 5/00

292317, 700226, 361724

A container seal device is provided that comprises a seal device for a shipping container, comprising a first unit that is affixed to a shipping container. A control system is contained in the first unit containing a control system. A second unit is provided that is configured to engage with an element of a door of a shipping container to which the first unit is affixed and to electrically connect with the control system in the first unit. The control system in the first unit is configured to detect a breach of the second unit indicative of access being made to the shipping container.

20070146041, Jun 28, 2007

Mar 9, 2007

11/684087

Adam Carley - Windham NH, US
Daniel Allen - Derry NH, US
James Mandry - N. Andover MA, US

ALTERA CORPORATION - San Jose CA

G06F 1/04

327291000

A digitally programmable delay circuit comprising a plurality of transistors connected in parallel with each other and to a line carrying a signal having an edge to be delayed. One or more of the transistors are selected by a delay control signal to impose a delay amount to the edge, wherein the delay control signal is based on a desired delay amount and a measure of instantaneous process, voltage and temperature conditions of an integrated circuit in which the plurality of transistors are implemented. A selector circuit is responsive to the delay control signal and converts the delay control signal into one or more transistor selection signals to activate one or more of the plurality of transistors. The plurality of transistors may comprise a first sub-circuit having a plurality of transistors of a first type (e.g., P-type) connected in parallel with each other in a ladder configuration, and a second sub-circuit comprising a plurality of transistors of a second type (e.g., N-type) connected in parallel with each other and in a ladder configuration. The overall delay imposed on the edge after it has passed through both sub-circuits has delay contributions from both types of transistors. The delay circuit may have enhanced performance because of finer delay control granularity by providing a first circuit stage that comprises a plurality of transistors for relatively fine delay adjustment to the edge and a second circuit stage that comprises a plurality of transistors for relatively coarse delay adjustment to the edge. A combination of one or more of the transistors in the first and second circuit stages may be selected to produce numerous steps or increments of delay adjustability.

20060170476, Aug 3, 2006

Jan 28, 2005

11/044336

Adam Carley - Windham NH, US
Daniel Allen - Derry NH, US
James Mandry - N. Andover MA, US

H03H 11/26

327261000

A clock signal generation system and method to distribute at least one clock signal to a plurality of points on a circuit board using a plurality of digitally programmable delay circuits each of which delays the clock signal by a desired amount so as to synchronize arrival of the clock signal when distributed to each of the plurality of points on the circuit. Each digitally programmable delay circuit comprises a plurality of circuit stages connected in series with each other. Each circuit stage comprises a plurality of transistors of a first type (e.g., P-type) connected in parallel with each other, and a plurality of transistors of a second type (e.g., N-type) connected in parallel with each other. In each circuit stage, one or more of the plurality of transistors of the first type are selected to delay a rising edge, and one or more of the plurality of transistors of a second type are selected to delay a falling edge.

20060170482, Aug 3, 2006

Jan 28, 2005

11/044315

Adam Carley - Windham NH, US
Daniel Allen - Derry NH, US
James Mandry - N. Andover MA, US

H03K 17/296

327396000

A digitally programmable delay circuit comprising a plurality of transistors connected in parallel with each other and to a line carrying a signal having an edge to be delayed. One or more of the transistors are selected by a delay control signal to impose a delay amount to the edge, wherein the delay control signal is based on a desired delay amount and a measure of instantaneous process, voltage and temperature conditions of an integrated circuit in which the plurality of transistors are implemented. A selector circuit is responsive to the delay control signal and converts the delay control signal into one or more transistor selection signals to activate one or more of the plurality of transistors. The plurality of transistors may comprise a first sub-circuit having a plurality of transistors of a first type (e.g., P-type) connected in parallel with each other in a ladder configuration, and a second sub-circuit comprising a plurality of transistors of a second type (e.g., N-type) connected in parallel with each other and in a ladder configuration. The overall delay imposed on the edge after it has passed through both sub-circuits has delay contributions from both types of transistors. The delay circuit may have enhanced performance because of finer delay control granularity by providing a first circuit stage that comprises a plurality of transistors for relatively fine delay adjustment to the edge and a second circuit stage that comprises a plurality of transistors for relatively coarse delay adjustment to the edge. A combination of one or more of the transistors in the first and second circuit stages may be selected to produce numerous steps or increments of delay adjustability.