1. Electronics also covering Fibre Optics
2. Hydraulics
3. High Voltage
Courses are held the training foundation in Manila, Philippines within reach of Subic
where we hold the ROV practical pilots course.
The modules are all held in classrooms fitted out for the module. The practical
exercises are held on the benches using mock up circuits, piping and test rigs to
easily simulate the module circuits for hydraulics or electronics.
This is hands on training not just text books. You will be able to simulate and learn
from real experimentation.
The dates are set for the exact same dates as our ROV Pilots Course so that
delegates can do one course immediately before or after the other.
Course Dates:
2007 Schedules
Course # 31/0710 Start Monday November 5 for 3 weeks.
Course # 31/0711 Start Monday November 26 for 3 weeks.
2008 Schedules
January 7 – 26
January 28 - February 16
March 24 – April 12
April 14 – May 3
May 5 - 24
May 26 – Jun 14
July 14- August 1
August 11- 30
September 1 – 20
September 22 – October 11
October 13 – 31
November 3 – 22
November 24 - 13 December
We have been IMCA Training members for 3 or maybe 4 years.
Visit their site http://www.imca-int.com/
We are an HSE registered Diving and ROV company. We supply many major
oilfield clients for many years such as Conoco, Maersk, Canadian Nexen, Subsea 7,
Technip, Frasers, and many many more.
See our details here:
www.subnetservices.com and we own and operate www.divingpersonnel.com
Download the course flyers here http://www.subnetservices.com/flyer.zip |
NEW INCREDIBLE SUBNET DOES IT AGAIN to beat all other training Establishments.
Now EVERY delegate will build/test underwater and KEEP his own small ROV as part of the 3 in 1 course.
WHY? SO Employers can be assured each delegate completely understands the programming and function of all ROV components etc. |
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I. Module Description
This module deals with the fundamental concepts of electronic systems in
remote-operated vehicles. It includes an understanding on how the
electronic components and equipments work and functions as circuits.
Learn the discrete components (Through-Hole and Surface Mount
Technology; Analog and Digital Circuits) to integrated circuits, including
its operations, characteristics, parameters, testing and troubleshooting.
The Understanding of communication systems is emphasized.
Laboratory activities are provided to verify, practice and learn the
principles.
II. Training Objectives
Upon completion of the module, the participant will be able to:
a. Familiar and test the active and passive devices using analog and
digital VOM;
b. Measure electrical parameters using electronic instruments;
c. Solder and de-solder of electronic components in board using
soldering iron and hot-air;
d. Build some circuits using breadboard;
e. Analyze waveform signals using oscilloscope;
f. Perform experiments on operational amplifier and digital circuits with
the laboratory sheets;
g. Testing of digital signals using logic probes;
h. Distinguish different types of sensors in some circuitry;
i. Learn the conversion process from analog-to-digital and digital to
analog using different methods;
j. Perform experiments on optical fibers using laboratory modules
III. Training Duration
80 hours
IV. Module Topics
Day 1
Passive Devices (RLC) / Surface-Mount Devices (SMD)
- Symbols
- Function/Operation
- Testing
- Applications
Electronic Equipments: Analog and Digital VOM
Soldering and De-soldering Technique
Activities: Device Familiarization and Component Testing; Oscilloscope
Familiarization; Reworks
Day 2
Active Devices (Diode) / Power Supplies (Switching-Mode)
- Symbols
- Function/Operation
- Testing
- Applications
Activities: Device Familiarization and Component Testing; Power Supply Circuit
Day 3
Active Devices (Transistors/Thyristors)
- Symbols
- Function/Operation
- Testing
- Applications
Activities: Device Familiarization and Component Testing; Amplifier
Circuit; Phase Controller Circuit
Day 4
Integrated Circuits (Operational Amplifier)
- Symbol/ Blocks/ Stages
- Function/Operation
- Classifications/ Characteristics
- Mode of Operations
Activities: Circuit Construction and Analysis for Open-Loop Operations: Op-Amp Comparator
Day 5
Operational Amplifier
- Classifications
- Circuit Constructions
- Features/ Characteristics
- Formula Derivations
- Sample Problems
Activities: Circuit Construction and Analysis for Closed-Loop
Operations; Inverting, Non-Inverting and Follower
Day 6
Digital Circuits (Logic Gates/ Combinational Circuits)
- Symbols
- Functions/ Operations
- Truth Table
- Specification Data
Activities: Digital Circuits Experiments; Logic Gates, Half/ Full, Adder, Mux Demux
Day 7
Sequential Circuits/ Memories
- Symbols
- Functions/ Operations
- Truth Table
- Specification Data
Activities: Digital Circuits Experiments; RS, JK, Registers, Counters and RAM
Day 8
Transducers
- Types
- Functions/ Operations
- Circuitry
- Applications
Activities: Sensors; Light, Heat, Motion, Proximity
Day 9
Conversions / Inversions
- Analog-to-Digital (ADC)
- Digital-to-Analog (DAC)
Activities: Converters; Parallel-Encode ADC, Binary-Weighted DAC; Power Inverters
Day 10
Data Communications
- Fiber Optics Principles
- Interface RS232/RS485
- Audio and Video Communication System
- Telemetry
Activities: Optical Fibers; Optical Sources, Photo Detectors, Audio/Video Transmission |
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I. Module Description
This module deals with the study of the operation, design, function and
applications of various hydraulic elements commonly used in the industry. It
presents the different hydraulic symbols and explains how they are used in
schematic diagrams according to the ISO Standard. Sufficient time is allocated for
hands-on exercises to achieve hook-up and troubleshooting skills.
II. Training Objectives
Upon completion of the module, the participant should be able to:
1. know the physical fundamental principles of hydraulic systems
2. explain the working principles of the different hydraulic elements and their
application in ROV
3. interpret graphic symbols and know the construction of the different hydraulic
elements
4. read, interpret and design hydraulic circuit diagrams according to ISO
5. hook up, simulate and troubleshoot hydraulic circuits
III. Training Duration
48 hrs
IV. Module Topics
Day 1
1. Discuss the importance of hydraulics in the industry
2. Identify the advantages and disadvantages of hydraulic automation
3. Differentiate hydrostatics from hydrodynamics
4. Enumerate the ideal characteristics of a hydraulic fluid
5. Differentiate a hydraulic system from a pneumatic system
6. Explain a typical hydraulic system
7. Define ISO and SI; and the quantities and units important in the study of
hydraulics
8. State the different laws and other physical fundamental principles in a
hydraulic system
9. Identify the parts of a hydraulic power pack
Day 2
1. Discuss the principle of operation of pumps, driving means, oil reservoir,
filters, hydraulic valves and cylinders.
2. Differentiate the different types of filter installation
3. Apply the hydraulic cylinders in a control system.
4. Apply the different hydraulic input and processing elements:
· directional control valves
· non-return valves
· flow-control valves
· pressure-controlled valves
Day 3 & 4
1. Read, interpret and design hydraulic schematic diagrams.
2. Be familiarized with hydraulic simulation software.
3. Hook-up, simulate and troubleshoot hydraulic controls and sample
industrial applications.
Days 5 & 6
1. Understand the principles of electro-hydraulics.
2. Apply electrical devices such as switches, relays, timers and sensors to an
electro-hydraulic system.
3. Apply solenoid valves and hydraulic cylinders to an electro-hydraulic
power circuits.
4. Read, interpret and design electro-hydraulic schematic diagrams.
5. Hook-up, simulate and troubleshoot electro-hydraulic controls and sample
industrial applications. |
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I. Module Description
This module provides guidance for electrical safety in respect of surface
personnel operating ROVs.
Reviewed by IMCA's Americas Deepwater
II. Contents
1. Introduction
2. Scope
3. Responsibilities
4. Definitions
5. The Competent Person, including Technical Knowledge or Experience
6. Rules or Procedures for Safe Systems at Work
III. Duration:
3 or 4 Days
High Voltage Electricity
· Introduction to HV systems
· Safety
· Certification
· Description of system components
· Repair/maintenance
· References
Electricity in Hazardous Areas
· Introduction
· Safety
· Certification/labelling
· Environment
· Description of contents
· Repair/maintenance
To Book a place fill in the online web booking form at
www.subnetservices.com/rov/booking/
or call uk 44 (0) 845 8692038 email: mobile1@subnetservices.com |
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