JEONG HU, OTR
Restorative Service Providers at Bergen St, Newark, NJ
License number
New Jersey TRO1164
Category
Restorative Service Providers
Type
Hand
Address
Address
2
90 Bergen St SUITE 3300, Newark, NJ 07103
91 Butler Pkwy, Summit, NJ 07901
91 Butler Pkwy, Summit, NJ 07901
Phone
(973) 972-2805
(973) 972-2815 (Fax)
(908) 277-6120
(973) 972-2815 (Fax)
(908) 277-6120
Personal information
See more information about JEONG HU at radaris.comName
Address
Phone
11 George St APT 2, Summit, NJ 07901
91 Butler Pkwy, Summit, NJ 07901
Professional information
Clinical Coordinator Of Ot, Occupational Therapist
Position:
Clinical Coordinator of OT at UMDNJ, Occupational therapist at UMDNJ
Location:
Greater New York City Area
Industry:
Health, Wellness and Fitness
Work:
UMDNJ
- Newark, NJ since Jan 2010
-
Clinical Coordinator of OT
UMDNJ
since Apr 1992
-
Occupational therapist
Education:
Florida International University
Bachelor of Science, Occupational therapy
Bachelor of Science, Occupational therapy
Jeong Hu, Newark NJ - OTR
Specialties:
Occupational Therapy, Hand Occupational Therapy
Address:
90 Bergen St SUITE 3300, Newark 07103
(973) 972-2805 (Phone), (973) 972-2815 (Fax)
(973) 972-2805 (Phone), (973) 972-2815 (Fax)
Languages:
English
Low Voltage Power Line Carrier Communications At Fundamental Working Frequency
US Patent:
2002013, Sep 19, 2002
Filed:
Jul 13, 2001
Appl. No.:
09/905328
Inventors:
Hongyuan Che - Shenzhen, CN
Jimmy Guo - Shenzhen, CN
Benjamin Hu - , US
Jeong Hu - Summit NJ, US
Jimmy Guo - Shenzhen, CN
Benjamin Hu - , US
Jeong Hu - Summit NJ, US
International Classification:
H04M011/04
US Classification:
340/310010, 340/310060
Abstract:
A two-way carrier wave digital data transmission between a terminal station and a central station over low-voltage power line with long distance of transmission and high accuracy at low implementation costs. Long distance of data transmission is achieved by generating a high-energy communication signal by shorting the circuit near the zero crossing of the fundamental power wave, where the attenuation effect on the carrier signal is least. High accuracy of data transmission is achieved by generating a carrier communication signal at low frequency with a triggering/interrupt voltage signal that is much higher than the expected random noise signal in order to have high signal-to-noise ratio at the fundamental working frequency. As a result of the high signal-to-noise ratio, the receiver then can receive the transmitted signal and clearly differentiate between a “1” bit and a “0” bit data.