Dipankar Dipankar Ghosh, 674712 Windrush Cir, Norman, OK 73072

2012004, Mar 1, 2012

Aug 26, 2010

12/869129

Dipankar Ghosh - Oakdale MN, US
Kenton D. Budd - Woodbury MN, US
Nanayakkara L.D. Somasiri - Austin TX, US
Ge Jiang - Cedar Park TX, US
Bradley L. Givot - St. Paul MN, US

H01B 1/12

25251921

Provided are compositions and materials that have varistor properties and are suitable for use in electrical stress control devices and surge arrestor devices. The compositions and materials include a polymeric material and calcined calcium copper titanate filler material and have a reversible non-linear current-voltage characteristic.

2013024, Sep 19, 2013

Dec 5, 2011

13/883313

Dipankar Ghosh - Oakdale MN, US
Ge Jiang - Austin TX, US
Rui Yang - Austin TX, US

H01L 51/05

257 40, 438 99

A composite diode () includes a first conductive sheet, () a second conductive sheet, () and a nonlinear polymer composite material () sandwiched therebetween. The nonlinear polymer composite material comprises nonlinear inorganic particles () retained in a polymeric binder material (). Methods of making the composite diode, and electronic devices including them, are also disclosed.

2021007, Mar 11, 2021

May 14, 2019

17/054208

- St. Paul MN, US
Dipankar Ghosh - Oakdale MN, US

C08L 83/04
H02G 15/103
H02G 15/064

Electric field grading compositions comprise a particulate cupric oxide dispersed in a matrix material, wherein the electric field grading composition has a threshold voltage, a breakdown voltage, and exhibits a reversible electric field switchable current-voltage relationship that substantially follows the equation: I=kVα wherein: I is current in amperes; k is a constant greater than 0; V is applied voltage in volts, wherein V is between the threshold voltage and the breakdown voltage, inclusive; and α is a real number greater than 1. The electric field grading composition is useful for reducing electric field stress at a joint or termination of a conductive substrate. Articles including the electric field grading disposed on a surface of a conductive substrate are also disclosed.

2021002, Jan 28, 2021

Apr 5, 2019

17/045582

- St. Paul MN, US
Jaewon KIM - Woodbury MN, US
Stephen J. ETZKORN - Woodbury MN, US
Dipankar GHOSH - Oakdale MN, US
Mohsen SALEHI - Woodbury MN, US
Guanglei DU - Horseheads NY, US
John A. WHEATLEY - Stillwater MN, US

H01Q 1/42
C08F 220/10
C08K 7/28
C08K 3/40
C08J 5/18
C09J 7/24
C09J 11/04

Gradient permittivity films are described. In particular, gradient permittivity films that include a first continuous matrix of a first component having a first relative permittivity and a second component disposed within the continuous matrix having a second relative permittivity. The first permittivity is greater than the second permittivity for at least one wavelength between 20 GHz and 300 GHz. Such films may be useful in improving the signal to noise ratio for transmitting and receiving units behind a protective cover.

2021002, Jan 21, 2021

Apr 4, 2019

17/043432

- St. Paul MN, US
Stephen J. Etzkorn - Woodbury MN, US
Ronald D. Jesme - Plymouth MN, US
Dipankar Ghosh - Oakdale MN, US
Mohsen Salehi - Woodbury MN, US
Guanglei Du - Horseheads NY, US
John A. Wheatley - Stillwater MN, US

H01Q 15/10
H01Q 1/42
H01Q 1/32

Gradient permittivity films are described. In particular, gradient permittivity films including a plurality of layers each having a thickness where at least one layer is perforated and has a different air volume fraction from another of the plurality of layers by at least 0.05. Such films may be useful in improving the signal to noise ratio for transmitting and receiving units operating between 20 GHz and 300 GHz behind a protective cover.

2020005, Feb 13, 2020

Oct 26, 2017

16/344412

- St. Paul MN, US
Dipankar Ghosh - Oakdale MN, US

H05K 9/00
C08J 9/00
C08K 3/22
C08K 3/04
C08K 3/36
C08K 9/06
C08K 13/06

Electromagnetic interference (EMI) shielding composites and methods of making and using the same are described. The composites include high-loading-level ceramic particles distributed in a low-dielectric-loss matrix material having a dielectric loss tangent in the range of about 0.0001 to about 0.005. In one case, the composite includes CuO particles distributed in silicone. The composites exhibit dielectric absorber properties in the high frequency range.

2019037, Dec 5, 2019

Nov 27, 2017

16/465401

- St. Paul MN, US
Dipankar Ghosh - Oakdale MN, US

H01B 1/20
H02G 15/064
H02G 15/103
H02G 1/14
C08K 3/22
C08K 7/00
C09D 183/04
C09D 179/08
C09D 7/40
C09D 7/61

Nonlinear composite compositions comprise a dielectric matrix material and flakes of a mixed metal oxide having the formula M1M2Odispersed in the dielectric matrix material. M1 is selected from the group consisting of alkali metals, alkaline earth metals, and combinations thereof. M2 is a transition metal or post-transition metal, wherein M2 has an atomic number no greater than 78. The number x is in the range 0.3≤x≤1, y is a number in the range 0.5≤y≤1.5, and z is a number selected such that the mixed metal oxide is electrically neutral, wherein the amount of flakes in the nonlinear composite composition is sufficient that the nonlinear composite composition has a nonlinear increasing conductivity in response to increasing electric field. Methods of making nonlinear composite compositions and articles including them are disclosed.

2019032, Oct 24, 2019

Dec 19, 2017

16/472148

- St. Paul MN, US
Kenton D. Budd - Woodbury MN, US
Dipankar Ghosh - Oakdale MN, US
Noah O. Shanti - Maplewood MN, US

H01B 1/22
C09J 11/08
C09J 9/02
C08K 9/08
C08K 7/28
C08K 3/40
C08K 3/34

Conductive particles, articles including such particles, and methods of making such conductive particles, are provided; wherein the conductive particles include: a core particle including at least one of a glass, a glass-ceramic, or a metal; surface particles adhered to the core particle; and a metal coating disposed on at least a portion of the core and surface particles; wherein the core particle is larger than the surface particles.