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James H Glende

from Baxter, MN
Age ~73

James Glende Phones & Addresses

  • 654 Mary St, Baxter, MN 56425 (218) 829-0073
  • 6584 Mary St, Baxter, MN 56425 (218) 829-0073
  • 916 10Th St, Brainerd, MN 56401 (218) 829-0073
  • 3125 22Nd St, Rio Rancho, NM 87124 (505) 891-8221
  • Albuquerque, NM
  • Pequot Lakes, MN
  • Pequot Lakes, MN

Work

Company: Thern, inc. May 2012 Address: Winona, MN Position: Value stream manager ep

Education

Degree: Diploma School / High School: Winona Senior High

Skills

Lean Manufacturing • Strategic Planning • Plant Management • Kanban • Inventory Management • Process Improvement • MRP • ROI development • Metal Fabrication • Coatings • Return on Investment • Toyota Production System

Industries

Machinery

Resumes

Resumes

James Glende Photo 1

Value Stream Manager Ep At Thern, Inc.

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Position:
Value Stream Manager EP at Thern, Inc.
Location:
Winona, Minnesota
Industry:
Machinery
Work:
Thern, Inc. - Winona, MN since May 2012
Value Stream Manager EP

Landscape Brands, Inc Dec 1998 - Jan 2012
General Manager, Operations

Fusion Coatings, Inc Oct 1973 - Dec 1998
Plant Operations Manager
Education:
Winona Senior High
Diploma
Skills:
Lean Manufacturing
Strategic Planning
Plant Management
Kanban
Inventory Management
Process Improvement
MRP
ROI development
Metal Fabrication
Coatings
Return on Investment
Toyota Production System

Business Records

Name / Title
Company / Classification
Phones & Addresses
James Glende
Organizer
GLENDE TECHNOLOGY LLC
3125 22 Ave, Rio Rancho, NM 87124

Publications

Us Patents

Input Signal Combiner System And Method

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US Patent:
8194789, Jun 5, 2012
Filed:
Dec 5, 2008
Appl. No.:
12/315798
Inventors:
Chad Wolter - Breezy Point MN, US
Damian Bonicatto - Pequot Lakes MN, US
James Glende - Baxter MN, US
Assignee:
Hunt Technologies, LLC - Pequot Lakes MN
International Classification:
H03K 9/00
US Classification:
375316, 375136, 375219, 375322, 375345, 375377
Abstract:
Disclosed are various embodiments of an input signal combiner. In one embodiment, a receive stage receives a multi-phase waveform and separates the multi-phase waveform into a plurality of waveforms. Analog-to-digital converters convert the plurality of analog waveforms into at least one digital signal. At least one gain stage adjusts an amplitude of each of the digital signals and combines the amplitude adjusted digital signals into at least one gain adjusted combined signal. A signal extraction stage extracts an inbound signal from the at least one gain adjusted combined signal according to a demodulation scheme.

Systems And Methods For Controlling Communication Over A Power Distribution Network

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US Patent:
8416069, Apr 9, 2013
Filed:
Oct 29, 2009
Appl. No.:
12/608124
Inventors:
Verne Jon Olson - Pequot Lakes MN, US
James Hilmer Glende - Baxter MN, US
Michael Lloyd Schroeder - Emily MN, US
Assignee:
Landis+Gyr Technologies, LLC - Pequot Lakes MN
International Classification:
G08B 1/08
US Classification:
340538, 340506, 34053815, 340 1231, 340 1232, 340 1237, 340 124, 34028602
Abstract:
An embodiment of a communication system can control transmission of a data signal to a power distribution network based on signal data measured from the power distribution network. The signal data may represent an amount of crosstalk or an amount of noise experienced on the power distribution network. The signal data and an identification of at least one active power line coupler unit can be used to determine an adjustment to one or more power line coupler units. A control signal that represents the adjustment can be used to adjust the power line coupler units.

Powerline Communication Receiver

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US Patent:
20130163682, Jun 27, 2013
Filed:
Dec 22, 2011
Appl. No.:
13/334538
Inventors:
James Hilmer Glende - Baxter MN, US
International Classification:
H04B 3/54
H04L 7/00
US Classification:
375257
Abstract:
Aspects of the present disclosure are directed towards a circuit-based apparatus for receiving data communications over power distribution lines that carry power using alternating current (AC). The apparatus has a processing circuit that is configured and arranged to receive an input signal representing the data communications over power distribution lines. For a quadrature encoded signal, the input signal is separated into intermediary signals representing a real portion of and an imaginary portion. The processing circuit can then determine timing information from the real portion of and the imaginary portion. The intermediary signals can then be decimated according to a variable rate of decimation that is responsive to the determined timing information. The decimated intermediary signals are also filtered.
James H Glende from Baxter, MN, age ~73 Get Report