Annex I-competencies For Ece

ANNEX 1 Click Here & Upgrade PROFILE OF DUTIES AND COMPETENCIES OF ELECTRONICS AND COMMUNICATION ENGINEER Expanded Features (ENTRY LEVEL)

PDF DUTIES Unlimited Pages A. Electronics Engineering Practice Complete

Documents A.1 Abide by engineering practice with highest integrity

A.2 Conceptualize, Analyze & Design

ANNEX 1 DRAFT

COMPETENCIES

A.1.1 Familiarize with EcE Law, 2004, RA 9292

A.1.2 Observe Laws, Contracts and Ethics

A.1.3 Observe International A.1.4 Comply with OSI, ISO A.1.5 Apply related and Local Patent Law, and other standards industry standards WIPO

A.1.6 Apply Philipine Electronics Code

A.2.1 Signal Processing System

A.2.2 Analog and Digital Electronics System.

A.2.3 Communication Systems

A2.4 Electro-Acoustics System

A 2.6 Instrumentation

A.2.7 Control System.

A 2.8 Industrial Electronics

A.2.9 Power Electronics

A.2.10 Electronics Devices and Systems Test Equipment

A.3.1 Translate engineering solutions into product and/or process

A.3.2 Verify products and/or processes in conformity to given technical specification

A.3.3 Define and Evaluate A.3.4 Estimate impact of Safety & Security errors and tolerances Standards

A.4.2 Identify system strength and weakness

A.4.3 Analyze failure

A.3 Generate technical specification

A.4 Conduct engineering evaluation, A.4.1 Set up prototype, experiment, and experiment, and working investigation model

A.2.5 Broadcast System

A.3.5 Define Proof of performance (documentation)

A.4.6 Describe A.4.4 Evaluate and validate A.4.5 Recommend mechanics of safety EcE product performance product improvement incident investigation

A.4.7 Determine product reliability B. RESEARCH AND DEVELOPMENT B.1. Apply basic methods of Research B.1.1 Communicate with and Development industry, practitioners, institutions, and other stakeholders.

B. 2. Engage in Research and Development Program

B.2.1 Identify research focus conducts tests and identifies information for general application

B.1.2 Formulate problem B.1.3 Identify appropriate statement methodology

B.2.2 Measure and record research projects methodically.

C. MANAGE SIGNIFICANT PROJECTS C.1 Interpret project scope C.1.1 Determine and examine C.1.2 Explain project each project element focused management process to EcE engineering.

C.2 Explain quality, safety and risk management

C.3 Discuss plans, programs, strategies, and budget.

B.2.3. Analyze recorded results and develop conclusions

B.1.4 Define research paradigm

B.1.5 Conduct resource analysis

B.2.4 Reports results with B.2.5 Write and analysis of their significance present technical to the underlying engineering reports/papers (for possible publication) problems

C.1.3 Identify weaknesses, C.1.4 Describe given strength, opportunity and internal and external threat in a project case environmental scan study

C.1.5 Evaluate existing (technical) system in engineering

C.2.2 Prepare reports and C.2.3 Identify hazards and C.2.4 Identify potential C.2.1 Identify quality standards documentation on quality potential safety issues and problem and risk and and performance and controls proactive measure preventions measurement conformances C.3.5 Formulate C.3.3 Describe the merit of C.3.4 Identify resources and tasks schedule using various time strategies in a case study budget in a case study management tools

C.3.6 Identify and appreciate performance indicators

C.3.1 Enumerate project workflow design tasks

C.3.2 Explain plans and programs

C.4.1 Explain system architecture

C.4.3 Explain various C.4.2 Interpret block techniques of interfacing diagrams, schematics and system components systems

C.4.4 Analyze the merit of a given integrated system in terms of operational needs, cost and timely delivery

C.5.1 Describe the system

C.5.2 Assess performance of the system.

C.5.3 Identify system performance parameters.

C.5.5 Explain given C.5.6 Identify C.5.4 Assess given systems corrective measures opportunities for performance review. workplace change and improvements

D.4 Utilize Quality Control Tools

D.5 Practice Process and Change Management

C.4 Integrate Systems

C.5 Implement changes in system

D OPERATION MANAGEMENT D.1 Apply Time Motion Study

D.2 Conduct Statistical Process Analysis

D.3 Perform SWOT Analysis

D.7 Perform Measurement and System Analysis

D.8 Utilize Metrology

D.9 Practice Production Planning and Control

D.6. Formulate Design of Experiment

Engineer (noun ) - A professional who applies the knowledge of mathematics, natural and applied sciences, humanities and social sciences gained through study, experience and practice with ingenuity and judgment based on ethical values to harness economically and safely the materials and forces of nature for the benefit of society and the environment. Defined during the Workshop on the Identification of the Competency Standards for the Basic Engineering Courses September 12-13, 2003, Tagaytay Country Hotel, Tagaytay City