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Please read the full description
before buying. By buying, you accept the information stated in the
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Please see our
FAQ before buying.
A huge collection of text-based
tutorials on disc for you to use as needed to learn, improve or reference!
LEARN TO CUSTOMISE, UPGRADE AND
UNDERSTAND THE INTERNALS OF YOUR PC!
ALSO COVERING LAPTOP HARDWARE!
107 tutorials
INCLUDING 10 Study guides for compTIA A+
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Desktop and Laptop PC Hardware
54 Tutorials |
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Also covering material for the
CompTIA A+ exams. 10 study guides with which you can become a certified
technician! "Computer
hardware is the physical part of a computer, including the digital
circuitry, as distinguished from the computer software that executes
within the hardware. The hardware of a computer is infrequently changed,
in comparison with software and data, which are "soft" in the sense that
they are readily created, modified or erased on the computer. Firmware
is a special type of software that rarely, if ever, needs to be changed
and so is stored on hardware devices such as read-only memory (ROM)
where it is not readily changed (and is therefore "firm" rather than
just "soft").
Most computer hardware is not seen by normal users. It is in embedded
systems in automobiles, microwave ovens, electrocardiograph machines,
compact disc players, and other devices. Personal computers, the
computer hardware familiar to most people, form only a small minority of
computers (about 0.2% of all new computers produced in 2003) Market
statistics." [Wikipedia] |
Including:
Component installation
Upgrading components
Maintaining your PC
internals
Motherboards
Processors
Memory
Temporary storage
Hard disks
Laptop peripherals
CRT monitors
Thermal compound
LCD monitors
Laptop repair
VRM
PCMCIA
Docking stations
Internet connections
Tuning up a system
Diskette drives
RAM
Scanners
CD drives
Ethernet
DVD drives
Digital audio
PC gaming
Preventing problems
Keyboards
IEEE standards
Bus architecture
Liquid cooling systems
Robots |
Expansion
cards
DSL connections
ISA
PCI
Cable types
Speakers
Optical drives
Cache memory
Mice
Power supplies
Firewire
Upgrading sound cards
CPUs
Imaging technology
Form factors
Diagnosing problems
Case fans
Laptop batteries
System types
POST errors
Laptop ports
Port replicator
Display devices
Adapter cards
Voltage levels
SD cards
SD RAM
DDR RAM
Dual core
Modems
Sharing files
USB
Parity |
BIOS
SATA
Firmware
CMOS
Math coprocessors
Peripherals
Processor features
Processor sockets
Processor slots
Heating
Troubleshooting
Magnetic disk drives
Input devices
Audio hardware
POST
SCSI
Computer hygiene
Video cards
Network adapters
Power management
Portable devices
Crashes
Motherboard components
Printers
Networking
Common problems
Removable storage
Cases
ECC
Cooling
Over clocking
AGP
Hyper-threading |
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Computer Engineering and
Electronics
26 Tutorials |
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"Computer engineering is a
discipline that combines elements of both electrical engineering and
computer science[1]. Computer engineers are electrical engineers that
have additional training in the areas of software design and
hardware-software integration. In turn, they focus less on power
electronics and physics. Computer engineers are involved on all aspects
of computing, from the design of individual microprocessors, personal
computers, and supercomputers, to circuit design, as well as the
integration of computer systems into other kinds of systems (a motor
vehicle, for example, has a number of subsystems that are computer and
digitally oriented). Common computer engineering tasks include
writing embedded software for real-time microcontrollers, designing VLSI
chips, working with analog sensors, designing mixed signal circuit
boards, and designing operating systems." [Wikipedia] |
Including:
Atoms
Ions
Protons
Neutrons
Atomic number
Isotopes
Compounds
Molecules
Conductors
Insulators
Resistors
Semiconductors
Current
Static electricity
Voltages
Flow of current
Ampere
Ohm
Conductance
Power
Batteries
Magnetism
Magnetic force
Magnetic data storage
Ac and Dc
Alternating current
Inductance
Frequencies
Capacitance
Decoding |
Data
reception
Integrated circuits
Data storage media
Digital principles
Binary addition
Logic gates
Serial communications
Acoustics
Audio
High fidelity
Wireless signals
Personal communications
Pseudo-Random number generation
Computers
Internet
Displays
Digital to analog conversion
Analog to digital conversion
Printers
Modems
Internet
Robots
AI
Resonance
Power transmission
Transformers
Semiconductors
Diodes
Digital displays
Binary counters
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Wattage
Energy
Waves
Hertz
Magnetism
Detecting electromagnetism
Ammeters
Voltmeters
Schematic diagrams
Ohm’s law
Voltage calculations
Power calculation
Circuit analysis
Cells
Digital electronics
Power supplies
Bipolar transistors
Shift registers
Field-effect transistor
Amplifiers
Oscillators
Encoding
CPUs
Phase
Carrier waves
Gates
Amplitude modulation
Waveforms
Data transmission
Frequency shift keying |
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PC
Communications and signals
17 Tutorials |
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"Telecommunication is the
transmission of signals over a distance for the purpose of
communication. Today this process almost always involves the sending of
electromagnetic waves by electronic transmitters but in earlier years it
may have involved the use of smoke signals, drums or semaphores. Today,
telecommunication is widespread and devices that assist the process such
as the television, radio and telephone are common in many parts of the
world. There is also a vast array of networks that connect these
devices, including computer networks, public telephone networks, radio
networks and television networks. Computers communicating across the
Internet is just one of many examples of telecommunication." [Wikipedia] |
Including:
Data communications
Message switching
Bandwidth
Economics
Digital signaling
Circuit parameters
Measurement units
Structured wiring
Data transmission
Regulators
Carriers
Wireless security
Satellites
Wireless communications
ATM
NICs
Network configs
Multiplexing
Analog lines
Constraints
Intelligent networks
Bits
Line disciplin
Start-stop signalling
Bridges |
Transmission
codes
Error detection
WANs
Line drivers
Modems
Bit error rates
Error correction
Service units
Handshaking
LANs
Frame relay
Terminals
OSI reference model
Transmission errors
Intranets
Telecommunications systems
ISDN
Hubs
Virtual private networking
File servers
Print servers
Voice over IP
Fibre optics
Extranets
Wi-fi
Wireless interference |
Channel
capacity
Telegraphy
Network architecture
Packet networks
Telephony
Network topologies
Internetworking
Transmission rates
Asynchronous transmission
Synchronous transmission
Data link later
Protocols
OSI layers
802 standards
Physical layers
Cables
Connectors
Jacks
Repeaters
Cellular communications
GPRS
3G
Routers
Gateways
Peer to peer networking |
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What is a
Tutorial/Tuition Set? |
Listed above is not even 1% of the
content in these tutorials. They really are huge!
The tutorials are packed full of code examples,
illustrations, diagrams, exercises and quizzes to aid the learning process,
making our tutorials true learning workshops.
Our Tuition sets contain many tutorials. These tutorials are
very in depth and real value for money. For example, if we say the
Java Set contained 43 tutorials, we do not mean that
one tutorial is “How to create an array in Java” another is “How to
manipulate strings in Java”. 43 tutorials means 43 huge text based
tutorials. Each tutorial has hundreds, and in some cases, thousands
of pages. So one Java tutorial may mean a 750 page tutorial on Java
Beans! An amazing electronic
tuition set, supplied on a CD-ROM with software for viewing.
This is NOT
paper based. Please see our
FAQ
for more information.
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