CompTIA RFID+ Certification

Online - 70 Hours

 

CompTIA Radio Frequency Identification (RFID+) certification validates the knowledge and skills of professionals who work with RFID technology. It is an international, vendor-neutral credential that recognizes a technician's ability to install, maintain, repair, and troubleshoot the hardware and software functionality of RFID products. Although not a prerequisite, it is recommended that CompTIA RFID+ candidates have a minimum of six to twenty-four months of RFID technology experience.

RFID is quickly becoming the standard technology for tracking goods in the supply chain, but it will only be effective if it is executed by properly trained and certified individuals. Demand for certified workers in high. 

Research firm Frost & Sullivan projects that the total North American RFID market for manufacturing and logistics will grow at a compound annual growth rate of 19.6% through 2012; growing from $74.8 million in 2005 to $261.8 million in 2012.

Be one of the first to train online for your RFID certification!  Whether you're a novice or a seasoned RFID Pro, ProTrain, in partnership with RFID4U offers self-paced training is a convenient, effective, and affordable way to learn RFID technology.  Our online training center gives you access to many libraries full of engaging, interactive course content, assessment features, and additional resources to maximize your leaning.  These e-Learning courses are designed to provide maximum learning in minimal time. These courses offer a visually engaging, guided learning experience with highly interactive features, including learning style, assessments, rich simulations, labs for practice.

 

RFID Online includes*:

Recommended prerequisites:   A prior understanding of networking basics, serial communication, engineering concepts, barcode technology and business process analysis would benefit students.

 

Outline

1.     RFID Physics

To understand the factors affecting the performance of an RFID system, implementers need to comprehend the nature and behavior of radio waves. This course describes how radio waves travel through space, or “propagate,” and how their effectiveness changes as they travel. It also discusses various communication methods between interrogators and tags, as well as characteristics of antennas, such as gain, directivity, polarization and impedance. A section of the course is dedicated to numerous types of antennas, their usage and the different kinds of antenna cable and connectors used to attach antennas to RFID interrogators. What's more, this course explains Effective Radiated Power (ERP) and Effective Isotropically Radiated Power (EIRP) calculations.

 

This course maps to the following CompTIA objectives for RF Physics:

·         Identify RF propagation/communication techniques

·         Describe antenna field performance/characteristics related to reflective and absorptive materials

·         Given a scenario, calculate radiated power output from antenna based on antenna gains, cable type, cable length and interrogator transmit power

 

 

2.     RFID Tags

This course explains the RFID tag’s components and subassemblies, types of tags and the reason for having various tag types, different tag performance parameters and tag selection criteria. A tag’s behavior changes according to the material to which it is attached, as well as the condition of the surrounding environment. Therefore, selecting an appropriate tag for the object material, and properly applying it to the object, is the most important factor in the successful deployment of an RFID system.

 

This course maps to the following CompTIA objectives for Tag Knowledge:

·         Classify tag types

o    Select the RFID tag best suited for a specific use case

§  Pros and cons of tag types

§  Tag performance

·         Tag antenna to region/frequency

o    Identify inductively coupled tags vs. back-scatter

o    Identify the differences between active and passive

·         Given a scenario, select an item's optimal placement locations for an RFID tag

o    Evaluate media and adhesive selection for tags

o    Tag orientation and location

§  Tag stacking (shadowing)

o    Package contents

o    Packaging

§  Items

§  Tags

§  Labels

§  Inserts

o    Liquids

o    Metal

o    Polarization

 

 

3.    Interrogation Zone Basics

This course describes the various types of RFID interrogators (readers), their components and the functionality of RFID interrogators. You will also learn about interrogator antennas: their types, polarization and function. A section of this course is dedicated to interrogator operation, including air interface and data protocols, dense reader mode, anti-collision and other tag management practices. The last section of the course discusses interrogation zone configuration, as well as interference problems that can arise while optimizing the system.

 

This course maps to the following CompTIA objectives for Interrogation Zone Basics:

o    Describe interrogator functionality

§  I/O capability

§  Handheld interrogators

§  Vehicle-mount interrogator

§  LAN/Serial communications

§  Firmware upgrades

§  Software operation (GUIs)

o    Describe configuration of interrogation zones

§  Explain interrogator-to-interrogator interference

§  Optimization

§  System performance and tuning

§  Travel speed and direction

§  Bi-static / monostatic antennas

o    Define anti-collision protocols (e.g., number of tags in the field/response time)

o    Given a scenario, solve dense interrogator environment issues (domestic/international)

§    Understand how a dense interrogator installation will affect network traffic

§    Installation of multiple interrogators, (e.g., dock doors, synchronization of multiple interrogators and antenna footprints)

 

 

4.    RFID Peripherals

Every RFID implementation needs peripheral devices, such as RFID-enabled printers; RFID-based automated label applicators (also known as "print-and–apply" devices); feedback systems, such as light stacks, horns, LED lights or LCD displays; and triggering devices, such as light break sensors. These devices enhance the capabilities of an RFID system, control I/O devices and system timing functions, and provide on/off capabilities for various business applications. Peripherals also improve human interactions with RFID hardware by assisting with automatic data collection and increasing the safety of the system. Additionally, this course discusses RFID printers, including their installation and setup, automated label applicators, feedback systems, triggering devices and Real-Time Location Systems (RTLS).

 

This course maps to the following CompTIA objectives for RFID Peripherals:

o    Describe installation and configuration of RFID printer

o    Describe ancillary devices/concepts

§  RFID printer encoder

§  Automated label applicator

§  Feedback systems (e.g., lights, horns)

§  RTLS

 

 

5.     Standards & Regulations

This course discusses various standards and regulations that influence the design and use of RFID systems. The course includes a brief summary of a few RFID mandates issued by some commercial and government organizations, which drive a large number of RFID implementations today.

 

This course maps to the following CompTIA objectives for Standards and Regulations:

o    Given a scenario, map user requirements to standards

§  Regulations/standards that impact the design of a particular RFID solution

o    Identify the differences between air interface protocols and tag data formats

o    Recognize regulatory requirements globally, as well as by region

o    Recognize safety regulations/issues regarding human exposure

 

 

6.    Site Analysis

This course focuses on a site survey, discusses the planning that goes into the site survey, highlights various aspects that should be examined when performing the site analysis (such as site anomalies) and provides pointers regarding how to generate the site survey report. 

 

This course maps to the following CompTIA objectives for Site Analysis:

o    Given a scenario, demonstrate how to read blueprints

o    Determine sources of interference

§  Use analysis equipment such as a spectrum analyzer to determine if there is any ambient noise in the frequency range that may conflict with the RFID system to be installed

o    Given a scenario, analyze environmental conditions end to end

 

 

7.    Designing an RFID System

System design is a very critical part of any RFID implementation, because without the right design and the proper hardware and software, the implemented RFID system might not function properly. With the exception of adhering to a budget, the steps of design selection and design considerations discussed in this course adhere to standards and regulations, as well as compliance with trading partner mandates, selection of operating frequency, tags, interrogators, antennas, peripherals and software.

 

This course maps to the following CompTIA objectives for Design Selection:

o    Given a scenario, predict the performance of a given frequency and power (active/passive) related to read distance, write distance, tag response time and storage capacity

o    Summarize how hardware selection affects performance

§  Antenna type

§  Equipment mounting and protection

§  Cable length/loss

§  Interference considerations

§  Tag type (e.g., active/passive and frequency)

 

 

8.    RFID Installations

This course discusses installation techniques for successful RFID implementations, including antenna installation, portal performance and design, conveyor portal design, electrostatic discharge (ESD), grounding and cable issues, pre-installation decisions, routine installation procedures and post-installation checks. This course also includes examples of various installation types.

 

This course maps to the following CompTIA objectives for Installation:

o    Given a scenario, describe hardware installation using industry-standard practices

§  Identify grounding considerations (e.g., lightning, ground loops and electrostatic discharge)

§  Test installed equipment and connections (pre-install and post-install)

o    Given a scenario, interpret a site diagram created by an RFID architect describing interrogation zone locations, cable drops and device mounting locations

 

 

9.     Testing and Troubleshooting

This course discusses obstacles to RFID system implementations, RF field issues and variables affecting the ability to read tags consistently (such as interference), the tagged material’s impact on tag performance and tag placement. Troubleshooting methods and solutions for slow reads, no reads and missed reads are further discussed.

 

This course maps to the following CompTIA objectives for Testing and Troubleshooting:

 

o    Given a scenario, troubleshoot RF interrogation zones (e.g., root-cause analysis)

§  Analyze less-than-required read rate

·         Identify improperly tagged items

§  Diagnose hardware

·         Recognize need for firmware upgrades

§  Equipment replacement procedures (e.g., antenna, cable and interrogator)

o    Identify reasons for tag failure

§  Failed tag management

§  ESD issues

o    Given a scenario, contrast actual tag data to expected tag data

 

 

 

Recommended Requirements

 

 

 

PC

MAC

Computer Environment

PC with 256MB RAM

Power Mac G-4 or higher

Platform

Microsoft  Windows 2000/XP

Mac OS X 10.x

CPU

Intel or AMD CPU at 700 MHz or higher

450 MHz or higher

Monitor

1024X768 resolution at 16-bit color depth

1024X768 resolution at 16-bit color depth

Browser

Microsoft IE 6.X.X; or Netscape Navigator 7.x

Safari

Internet Connection

 DSL, Cable or Broadband connection

DSL, Cable or Broadband connection)

Internet plug-ins

Flash 7

Flash 7

Internet Options

Cookies and JavaScript enabled

Cookies, JavaScript enabled

Internet Security Software

No popup blockers or firewalls

No popup blockers or firewalls


Note: Internet Explorer for the Macintosh does not support JavaScript access to applets/AJAX. This is a browser limitation, for this reason, Macintosh IE 5 users cannot access course materials incorporating JavaScript/AJAX functions. Please try accessing this course material from a non-Macintosh machine or a non-IE browser on the Macintosh.

 

Instructor: Sanjiv Dua, RFID+ is CEO of RFID4U, a world leader in RFID learning solutions and a cornerstone member of the CompTIA RFID+ committee. He is co-author of best selling RFID+ certification book published by McGraw Hill. Sanjiv is chief designer of industry popular RFID courses, frequent speaker in trade conferences and has published several white papers. Prior to RFID4U, Sanjiv was Sr. Regional Director at Inteliant Corporation, part of a publicly traded IT solutions company where he provided overall direction and management for staff of more than 175. Sanjiv also has held the post of Country Manager for Allied Telesyn where he managed company's business in South East Asia. His previous career experience includes senior-level national and international business development positions at Aquas, Sprint, and Tata-Elxsi in US, Europe, Singapore and India. He is B.S in Computer Engineering and has attended several technical and management courses.