1 / 0

Computer Maintenance

Computer Maintenance. Basic Electricity/Electronics. Summary Slide. Parts of an Atom Types of Electrical Materials Measuring Electricity Using a Multimeter to Make Resistance Measurements Using a Multimeter to Make Voltage Measurements Signals and Noise in Communication Systems

gibson
Download Presentation

Computer Maintenance

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Computer Maintenance

    Basic Electricity/Electronics
  2. Summary Slide Parts of an Atom Types of Electrical Materials Measuring Electricity Using a Multimeter to Make Resistance Measurements Using a Multimeter to Make Voltage Measurements Signals and Noise in Communication Systems Measuring Analog Signals Digital and Analog Signaling Simplex, Half-Duplex, and Full Duplex Transmission Baseband and Broadband Signaling and Communications Problems Computer Maintenance: Electronics/BasicElectricity
  3. Parts of an Atom nucleus - the center part of the atom, formed by neutrons and protons protons - particles have a positive charge, and along with neutrons, form the nucleus neutrons – particleshave no charge(neutral), and alongwith protons, form the nucleus electrons - particles have a negative charge, and orbit the nucleus Computer Maintenance: Electronics/BasicElectricity
  4. Types of Electrical Materials Insulators - high resistance to electrical current plastic, glass, air, wood, paper, rubber Conductors - conducts the flow of electrons Copper, silver, gold Semiconductors - control the flow of electrons carbon, silicon Computer Maintenance: Electronics/BasicElectricity
  5. Measuring Electricity Voltage (V) - electrical force or pressure that occurs when electrons and protons are separated The force that is created pushes toward the opposite charge and away from the like charge. Voltage can also be created by friction (static electricity), by magnetism (electric generator), or by light (solar cell). unit of measurement is VOLT Computer Maintenance: Electronics/BasicElectricity
  6. Measuring Electricity Current (I)—the measurement of electron flow in an electrical circuit unit of measurement is AMPERE (amp) Resistance (R)—amount of opposition to current unit of measurement is the OHM () Computer Maintenance: Electronics/BasicElectricity
  7. Measuring Electricity Computer Maintenance: Electronics/BasicElectricity
  8. Measuring Electricity Electricity is brought to your home, school and office by power lines. The power lines carry electricity in the form of alternating current (AC). Another type of current called direct current (DC), can be found in flashlight batteries, car batteries, and as power for the microchips on the motherboard of a computer. It is important to understand the difference between these two types of current. Computer Maintenance: Electronics/BasicElectricity
  9. Measuring Electricity Alternating Current (AC) Flows in two directions Direct current (DC) Flows in one direction only Impedance (Z) – measured in ohms (Ω) Total opposition to current flow (due to AC and DC voltages) Resistance – generally used when referring to DC voltages. Computer Maintenance: Electronics/BasicElectricity
  10. Measuring Electricity Current flows through closed loops called circuits. These circuits must be composed of conducting materials and have sources of voltage. The three required parts of an electrical circuit are Source or battery Complete path Load or resistance Voltage causes current to flow while resistance and impedance oppose it. Computer Maintenance: Electronics/BasicElectricity
  11. Measuring Electricity Computer Maintenance: Electronics/BasicElectricity
  12. Measuring Electricity For AC and DC electrical systems, the flow of electrons is always from a negatively charged source to a positively charged source. For the controlled flow of electrons to occur, a complete circuit is required. Electrical current generally follows the path of least resistance. Computer Maintenance: Electronics/BasicElectricity
  13. Measuring Electricity Because metals such as copper provide little resistance, they frequently are used as conductors for electrical current. Materials such as glass, rubber, and plastic provide more resistance; they are not good conductors and are generally used as insulators. The purpose of connecting the safety ground to exposed metal parts of computing equipment is to prevent such metal parts from becoming energized with a hazardous voltage from a wiring fault inside the device. Computer Maintenance: Electronics/BasicElectricity
  14. Using a Multimeter to Make Resistance Measurements A multimeter can be used to measure: Voltage Resistance Continuity Computer Maintenance: Electronics/BasicElectricity
  15. Using a Multimeter to Make Resistance Measurements If you intentionally make a path into a low-resistance path for use by two connected electrical devices, then the path has continuity. If a path is made unintentionally into a low-resistance path, then it is called a short circuit. The unit of measurement for both is the OHM (Ω). Continuity refers to the level of resistance of a path. Computer Maintenance: Electronics/BasicElectricity
  16. Using a Multimeter to Make Resistance Measurements You can perform measurements on the following: CAT 5 cable Terminated CAT 5 cable Terminated coaxial cable Telephone wire CAT 5 jacks Switches Wall outlets Computer Maintenance: Electronics/BasicElectricity
  17. Using a Multimeter to Make Voltage Measurements Two types of voltage measurement exist: DC and AC. The meter must be set to DC when measuring DC voltages. This includes the following: Batteries Outputs of computer power supplies Solar cells DC generators Computer Maintenance: Electronics/BasicElectricity
  18. Using a Multimeter to Make Voltage Measurements Two types of voltage measurement exist: DC and AC. The meter must be set to AC when measuring AC voltages. If you measure a wall socket, you must assume that line voltage is present. Line voltage is 120 V AC in the US and 220 V AC in most other places around the world Computer Maintenance: Electronics/BasicElectricity
  19. Signals and Noise in Communication Systems The term signal refers to a desired electrical voltage, light pattern, or modulated electromagnetic wave. Signals can be created as: Electrical pulses that travel over copper wire. Pulses of light that travel through strands of glass or plastic. Radio transmissions that travel over the airwaves. As laser or satellite transmissions. As infrared pulse. Computer Maintenance: Electronics/BasicElectricity
  20. Signals and Noise in Communication Systems Two main types of signaling (Analog and Digital). Analog Change gradually and continuously (will have a continuously varying voltage – versus – time graph). Typical of things in nature Used widely in telecommunications for more than 100 years Computer Maintenance: Electronics/BasicElectricity
  21. Signals and Noise in Communication Systems Two main types of signaling (Analog and Digital). (Continued) Digital Change one state to another almost instantaneously, without stopping at an in-between state. Discrete or jumpy Typical of technology instead of nature Computer Maintenance: Electronics/BasicElectricity
  22. Measuring Analog Signals Analog signals are measured in cycles, with one cycle representing the change from high to low and back again. Three characteristics are measured: Amplitude Frequency phase Computer Maintenance: Electronics/BasicElectricity
  23. Digital and Analog Signaling Digital signaling is the most appropriate format for transmitting computer data, and most networks use digital signaling methods for that reason. Because it is a simpler technology, digital signaling has some advantages over analog: Generally less expensive to make digital equipment Generally less vulnerable to errors caused by interference because the discrete state of on and off is not as easily affected by a small distortion as is a continuous wave form. Computer Maintenance: Electronics/BasicElectricity
  24. Digital and Analog Signaling Analog signals also have advantages: Signals can be easily multiplexed; that is signals can be combined to increase bandwidth. Signals are less vulnerable to the problem of attenuation (signal loss due to surroundings), because of distance so they can travel farther without becoming too weak for reliable transmission. However, when an analog signal is amplified, the noise is amplified with the signal. Digital connectivity solutions generally offer better security, faster performance, and higher reliability. Computer Maintenance: Electronics/BasicElectricity
  25. Simplex, Half-Duplex, and Full Duplex Transmission Simplex Transmission Unidirectional – signal travels in only one direction. Television is an example. Half-Duplex Transmission Signal can travel in both directions but not at the same time. Full-Duplex Transmission Signal can travel in both directions at the same time Computer Maintenance: Electronics/BasicElectricity
  26. Baseband and Broadband The entire capacity of an Ethernet cable is used for transmitting the data in one channel. This makes Ethernet a BASEBAND technology. A channel is an allocated portion of the media’s available bandwidth. The signal has the benefit of having the entire bandwidth to itself. BASEBAND is usually associated with digital signaling (although it can be used with analog). Most computer communications are baseband. BASEBAND signal is bidirectional; the signal can flow both ways so you can transmit and receive on the same cable. Computer Maintenance: Electronics/BasicElectricity
  27. Baseband and Broadband BROADBAND technologies allow for dividing the capacity of a link into two or more channels, each of which can carry a different signal. All channels can send simultaneously. ISDN is an example of BROADBAND technology because multiple signals can be carried over separate channels on a single wire. DSL is another example of a BROADBAND technology because date and voice can travel simultaneously over the same line. Computer Maintenance: Electronics/BasicElectricity
  28. Signaling and Communications Problems Propagation Travel time; speed depends upon medium. As data transmission rates increase, you must sometimes take into account the amount of time it takes the signal to travel. Attenuation Loss of signal over distance due to surroundings. Can affect a network because it limits the length of network cabling over which you can send a message. Computer Maintenance: Electronics/BasicElectricity
  29. Signaling and Communications Problems Reflection Caused by discontinuities in the medium Occurs in electrical signals; can be result of kinks in cable or poorly terminated cables. Networks should have a specific impedance to match the electrical components in the Network Interface Cards (NICs). The result of impedance mismatch is reflected energy. Computer Maintenance: Electronics/BasicElectricity
  30. Signaling and Communications Problems Noise Unwanted additions to optical/electromagnetic signals. Crosstalk – electrical noise from other wires in a cable. EMI (electromagnetic interference) can be caused by electric motors. Cancellation of signals can be avoided through the twisting of wire pairs to provide self-shielding within the network media. Computer Maintenance: Electronics/BasicElectricity
  31. Signaling and Communications Problems Timing problem Dispersion – signal broadens in time. Can be fixed by proper cable design, limiting cable lengths, and finding the proper impedance. Jitter – source and destination not synchronized. Can be fixed through hardware and software including protocols. Latency – delay of network signal. Computer Maintenance: Electronics/BasicElectricity
  32. Signaling and Communications Problems Collisions Occurs when two bits from different communicating computers are on a shared medium at the same time. Excessive collisions can slow the network. Computer Maintenance: Electronics/BasicElectricity
  33. Summary Slide Parts of an Atom Types of Electrical Materials Measuring Electricity Using a Multimeter to Make Resistance Measurements Using a Multimeter to Make Voltage Measurements Signals and Noise in Communication Systems Measuring Analog Signals Digital and Analog Signaling Simplex, Half-Duplex, and Full Duplex Transmission Baseband and Broadband Signaling and Communications Problems Computer Maintenance: Electronics/BasicElectricity
More Related