ALEXANDER RODRIGUEZ
Medical Practice at 14 Ln, Hialeah, FL

License number

Florida 514559

Issued Date

Jul 17, 2006

Effective Date

Jun 17, 2009

Expiration Date

Dec 1, 2008

Professional information

Alexander Rodriguez - Hialeah, FL

Work:

Peter the Printer, Inc
Typesetting Manager / Graphic Designer Winn Dixie Stores, Inc - Miami Gardens, FL
Dairy Department Associate

Education:

Florida International University - Miami, FL
Bachelor of Arts in Marketing and Management Miami Dade College - Miami, FL
Associate of Arts in Business Administration

Skills:

Bilingual English and Spanish, Fast learner and ability to multi-task l Excellent Communication Skills, Organized, Detail Oriented, Proficient in Microsoft Office, and Adobe Programs (Photoshop, Illustrator, ect.) ,Customer Service Skills

Alexander Rodriguez - Hialeah, FL

Work:

Plasco ID
Warehouse Clerk Wing Stop - Hialeah, FL
Assistant Manager of the Restaurant Southern Book Services - Opa Locka
Assistant Manager of the Shipping Department Cici's Pizza - Hialeah, FL
Floor Attendant

Education:

Strayer University - Miami, FL
Associate in Business Management

Method For Estimating The Useful Power Remaining In A Battery Of A Wireless Communication Device

US Patent:

6384578, May 7, 2002

Filed:

Feb 12, 2001

Appl. No.:

09/781143

Inventors:

Joseph Patino - Pembroke Pines FL
Alexander Rodriguez - Hialeah FL
Charles Cole - Plantation FL

Assignee:

Motorola, Inc. - Schaumburg IL

International Classification:

H02J 704

US Classification:

320149

Abstract:

The minimum transmit battery voltage (V ) of a radio operating in a TDMA mode of operation or the stand-by battery voltage (V ) of the radio operating in a GSM mode of operation can be determined as a function of the combination of an in-slot transmit battery voltage (V ), an out-of-slot transmit battery voltage (V ), a stand-by compensation factor (sb), and a compensation factor (K). The stand-by compensation factor (sb) is related to a difference between the out-of-slot transmit battery voltage (V ) and a stand-by battery voltage (V ). The compensation factor (K) has a first value for the TDMA mode of operation and a second value for the GSM mode of operation. Each value of compensation factor (K) is related to the manner in which the radio utilizes battery power during transmission in the TDMA or GSM modes of operation.

Automatically Compensated Squelch Circuit

US Patent:

5303409, Apr 12, 1994

Filed:

Jun 4, 1992

Appl. No.:

7/894132

Inventors:

Charles R. Ruelke - Davie FL
Alexander Rodriguez - Hialeah FL

Assignee:

Motorola, Inc. - Schaumburg IL

International Classification:

H04B 110

US Classification:

455219

Abstract:

A receiver (100) includes an audio section (200) which provides for compensated squelch settings which are automatically adjustable for changes in operating conditions such as changes in temperature or receiver channel spacing. Temperature circuit (128) provides a temperature signal (134) and controller (122) provides a signal indicating the channel spacing being used by receiver (100). The two signals are combined and formed into an address word which is in turn used to look-up a compensation word from memory location (218). The compensation word is then combined to a default squelch word by adder (216) providing for a compensated squelch word. The compensated squelch word automatically adjusts the squelch circuit's threshold level in order to compensate for changes in operational conditions affecting the squelch circuit.