NATIONAL VAN BUILDERS, INC Van Conversion · New Motor Vehicle Parts Merchant Whols
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Cale Commercial Realty Group I Business Services
157 Berkeley Rd, North Andover, MA 01845
Andrew J. Perlman President
Formco Business Systems Inc Whol Stationery/Office Supplies
2 Bourbon St, Peabody, MA 01960 PO Box 3486, Peabody, MA 01961 (978)5352595
Andrew Perlman Director
PJA CAPITAL, INC Investor
111 Birds Hl Ave, Needham, MA 02492 Fort Lauderdale, FL 33301
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76 PINE STREET LLC
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Andrew D Perlman Chief Executive Officer
VRINGO INC Nonclassifiable Establishments · A Development Stage Company Provides Communication Services · Patents Owners · Prepackaged Software · Provides Communication Services · Ret Computers/Software
780 3 Ave 15 Flr, New York, NY 10017 780 3 Ave, New York, NY 10017 116 W 23 St, New York, NY 10011 44 W 28 St, New York, NY 10001 (646)4488211
Us Patents
Floating Gate Memory Device Using Composite Molecular Material
Aaron Mandell - Boston MA Andrew Perlman - Boston MA
Assignee:
Advanced Micro Devices, Inc. - Sunnyvale CA
International Classification:
H01L 29788
US Classification:
257315, 257314, 438201
Abstract:
A floating gate memory device has a floating gate and an insulating layer on the floating gate. A control gate is on the insulating layer. The insulating layer is made up of a molecular matrix with ionic complexes distributed in the molecular matrix. By the application of an electric field, the ionic complexes are dissociable in the molecular matrix to change the resistivity (or conductivity) of the insulating layer. By switching between a high resistivity (low conductivity) state, where charge is retained by the floating gate, to a low resistivity (high conductivity) state, the charge stored on the floating gate can readily drained off to the gate electrode.
Vladimir Bulovic - Cambridge MA Aaron Mandell - Boston MA Andrew Perlman - Boston MA
Assignee:
Advanced Micro Devices, Inc. - Sunnyvale CA
International Classification:
G11C 1300
US Classification:
365151, 365153
Abstract:
A novel memory cell is provided with an active region including a molecular system and ionic complexes distributed in the molecular system. A pair of write electrodes are arranged for writing information to the memory cell. The active region is responsive to an electric field applied between the pair of write electrodes for switching between an on state and an off state. The active region has a high impedance in the off state and a low impedance in the on state. A pair of read electrodes is used to detect whether the active region is in the on state or in the off state to read the information from the memory cell. Read electrodes may be made of different materials having different work functions to reduce leakage current.
Addressable And Electrically Reversible Memory Switch
Vladimir Bulovic - Cambridge MA Aaron Mandell - Boston MA Andrew Perlman - Boston MA
Assignee:
Advanced Micro Devices, Inc. - Sunnyvale CA
International Classification:
G11C 1300
US Classification:
365151, 365100, 365148, 257E51006
Abstract:
A novel switching device is provided with an active region arranged between first and second electrodes and including a molecular system and ionic complexes distributed in the system. A control electrode is provided for controlling an electric field applied to the active region, which switches between a high-impedance state and a low-impedance state when the electrical field having a predetermined polarity and intensity is applied for a predetermined time.
Reversible Field-Programmable Electric Interconnects
Vladimir Bulovic - Cambridge MA, US Aaron Mandell - Boston MA, US Andrew Perlman - Boston MA, US
Assignee:
Advanced Micro Devices, Inc. - Sunnyvale CA
International Classification:
G01N 2702 H01L 2900
US Classification:
257529, 257209, 422 8202, 438600, 438601, 438281
Abstract:
A programmable interconnect structure and method of operating the same provides a programmable interconnection between electrical contacts. The interconnect includes material that has a reversibly programmable resistance. The material includes a molecular matrix with ionic complexes distributed through the molecular matrix. Application of an electrical field or electric current causes the molecular composite material to assume a desired resistivity (or conductivity) state. This state is retained by the molecular composite material to thus form a conductive or a non-conductive path between the electrical contacts.
Vladimir Bulovic - Cambridge MA, US Aaron Mandell - Boston MA, US Andrew Perlman - Boston MA, US
Assignee:
Spansion, Inc. - Sunnyvale CA
International Classification:
G11C 13/00
US Classification:
365151, 365100, 365148, 365153
Abstract:
A novel switching device is provided with an active region arranged between first and second electrodes and including a molecular system and ionic complexes distributed in the system. A control electrode is provided for controlling an electric field applied to the active region, which switches between a high-impedance state and a low-impedance state when the electrical field having a predetermined polarity and intensity is applied for a predetermined time.
Vladimer Bulovic - Cambridge MA, US Aaron Mandell - Boston MA, US Andrew Perlman - Boston MA, US
Assignee:
Spansion LLC - Sunnyvale CA
International Classification:
H01L 31/00
US Classification:
257200, 257 40, 257E51023
Abstract:
A novel memory cell is provided with an active region including a molecular system and ionic complexes distributed in the molecular system. A pair of write electrodes are arranged for writing information to the memory cell. The active region is responsive to an electric field applied between the pair of write electrodes for switching between an on state and an off state. The active region has a high impedance in the off state and a low impedance in the on state. A pair of read electrodes is used to detect whether the active region is in the on state or in the off state to read the information from the memory cell. Read electrodes may be made of different materials having different work functions to reduce leakage current.
Reversible Field-Programmable Electric Interconnects
A programmable interconnect structure and method of operating the same provides a programmable interconnection between electrical contacts. The interconnect includes material that has a reversibly programmable resistance. The material includes a molecular matrix with ionic complexes distributed through the molecular matrix. Application of an electrical field or electric current causes the molecular composite material to assume a desired resistivity (or conductivity) state. This state is retained by the molecular composite material to thus form a conductive or a non-conductive path between the electrical contacts.
Andrew David PERLMAN - New York NY, US Ross Gallagher Neumann - NY NY, US
Assignee:
Vringo Inc - Beit Shemesh
International Classification:
G06F 3/00
US Classification:
715723
Abstract:
A symphonic video clip generator implementable on a programmable mobile device, the generator includes a soundboard, a recorder and a generator. The soundboard is displayed on a screen of the programmable mobile device and displays multiple individually selectable video segments, each occupying a portion of the screen and each having a single associated audio track. The recorder records user activation and deactivation of the selectable video segments with the segments playing once activated and any activated segments playing concurrently. The generator creates a symphonic video clip from output of the recorder. The generator generates a collage of the concurrently activated video segments and a mix of concurrently activated audio tracks according to the timing of the user activation and deactivation for each activated video segment.