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Institute of Technology Sligo - Dept of Computing High Voltage!! Paul Flynn Institute of Technology Sligo - Dept of Computing Parts of An Atom electron Proton Neutron Electron neutron proton Institute of Technology Sligo - Dept of Computing Flowing Electrons Electrons are negatively charged Protons are positively charged Opposite charges attract Velocity of electrons keep them in orbit around nucleus Electrons pulled free from the atom is what we call electricity! Institute of Technology Sligo - Dept of Computing “Dynamic” Electricity Electricity can be viewed as a dynamic process. Dynamic means “changing.” Electrons are changing—moving from one atom to another. This flowing of electrons is called an “electrical current.” Institute of Technology Sligo - Dept of Computing Static Electricity “Static” means stationary or unchanging. Electrons have been “loosened” from the atom and stay in one place. The electrons have “voltage” but lack a “current.” A conductor supplies the current—or path—for static electricity to discharge. Institute of Technology Sligo - Dept of Computing ESD Electrostatic Discharge (ESD) is the process of static electrons jumping to a conductor. Simple experiment: Rub your shoes on a carpet (this will cause a voltage to build up around your body) Touch a metal door knob (the metal is a conductor providing a path for the “flow of electrons”—high voltage electricity!!) Institute of Technology Sligo - Dept of Computing Conductors Conductors have a large number of loosely attached electrons. These electrons can easily be freed from the nucleus of the atom when voltage is applied. See this web page for a demonstration: Free the Electron! Institute of Technology Sligo - Dept of Computing Examples of Conductors Metals Gold Silver Copper (Cat 5 Cable) Water Humans!! Institute of Technology Sligo - Dept of Computing Insulators Material with a high resistance to electrical current. Electron orbits are very close to the nucleus. Examples: Plastic Glass Wood Air and other gases Institute of Technology Sligo - Dept of Computing Semiconductors With semiconductor materials, the flow of electrons can be precisely controlled. Examples: Carbon Germanium And Silicon!! Because silicon is widely available (sand), it is the material we use for computer chips. Institute of Technology Sligo - Dept of Computing Networking Uses All Three!! We use conductors to provide a path for the electrical current. We use insulators to keep the flow of electrons going in one direction. For example, copper wire in our cables. For example, the plastic sheathing on cables. We use semiconductors to precisely control the flow of electrons. For example, computer chips use silicon. Institute of Technology Sligo - Dept of Computing Measuring Electricity Voltage—force or pressure caused by the separation of electrons and protons. Current—the path provided for the free flow of electrons in an electrical circuit. Unit of measurement: Volts (V) Unit of measurement: Ampere (amp) Resistance—impedance or opposition to the flow of electrons: conductor=low resistance; insulators=high resistance. Unit of measurement: ohms (Ω) Institute of Technology Sligo - Dept of Computing Two Types of Current Alternating Current (AC)—electrical current flows in both directions; positive and negative terminals continuously trade places (polarity) Example: Electricity provided by CPL Direct Current (DC)—electrical current flows in one direction; negative to positive Example: Electricity provided by batteries Institute of Technology Sligo - Dept of Computing Three Required Parts of an Electrical Circuit Source or Battery Complete Path Resistance Institute of Technology Sligo - Dept of Computing Safety Ground Wire Safety Ground Wire prevents electrons from energizing metal parts of the computer. Without grounding, severe shock and fires can occur. Safety grounds are connected to the exposed metal parts of the computer’s chassis. Institute of Technology Sligo - Dept of Computing Multimeter Basics A Multimeter is used to measure: Voltage Resistance Continuity (level of resistance) When using a Multimeter, you must properly set it to either AC or DC, depending on the voltage you’re trying to measure. Institute of Technology Sligo - Dept of Computing Analog vs. Digital Signals Analog signals have a continuously varying voltage-versus-time graph Institute of Technology Sligo - Dept of Computing Analog vs. Digital Signals Digital signals have a square wave with instant transitions from low to high voltage states (0 to 1). Institute of Technology Sligo - Dept of Computing Networks Use Digital Signaling Bits are represented by either no voltage (0) or +3 to +6 Volts (1). A Signal Reference Ground attached close to a computer’s digital circuits establishes the baseline for no voltage. Bits must arrive at the destination undistorted in order to be properly interpreted. What six things can distort a bit? Institute of Technology Sligo - Dept of Computing Bits Are Distorted By... Propagation Attenuation Reflection Noise Timing Problems Collisions Let’s look at each in more detail Institute of Technology Sligo - Dept of Computing Bits Are Distorted By... Propagation Attenuation Reflection Noise Timing Problems Collisions Institute of Technology Sligo - Dept of Computing Propagation Propagation means travel A bit takes at least a small amount of time to travel (propagate) down the wire. If the receiving device cannot handle the speed of the arriving bits, data will be lost. To avoid data loss, the computer either... Buffers the arriving bits into memory for later processing, or Sends a message to the source to slow down the speed of propagation. Institute of Technology Sligo - Dept of Computing Bits Are Distorted By... Propagation Attenuation Reflection Noise Timing Problems Collisions Institute of Technology Sligo - Dept of Computing Attenuation Attenuation is the loss of signal strength. The signal degrades or losses amplitude as it travels (propagates) along the medium Loss of amplitude means that the receiving device can no longer distinguish a 1 bit from a 0 bit. Attenuation is prevented by: Not exceeding a medium’s distance requirement (100 meters for Cat 5 cable) By using repeaters that “amplify” the signal Institute of Technology Sligo - Dept of Computing Bits Are Distorted By... Propagation Attenuation Reflection Noise Timing Problems Collisions Institute of Technology Sligo - Dept of Computing Reflection Reflection refers to reflected energy resulting from an impedance mismatch between the NIC and network media. Impedance is the resistance to the flow of current in a circuit provided by the insulating material. When impedance is mismatched, the digital signal can “bounce back” (reflect) causing it to be distorted as bits run into each other. Institute of Technology Sligo - Dept of Computing Bits Are Distorted By... Propagation Attenuation Reflection Noise Timing Problems Collisions Institute of Technology Sligo - Dept of Computing Noise Noise is unwanted additions to the signal Noise is unavoidable Too much noise can corrupt a bit turning a binary 1 into a binary 0, or a 0 into a 1, thus destroying the message. There are five kinds of noise: NEXT A; Thermal Noise; Impulse/Reference Ground Noise; EMI/RFI; & NEXT B Institute of Technology Sligo - Dept of Computing Noise Our signaling is usually strong enough to override the effects of thermal noise. Reference Ground Noise can usually only be solved by an electrical contractor. Noise threats we can control directly include: NEXT (Near End Cross Talk) whether at the source (A) or the destination (B) EMI/RFI Institute of Technology Sligo - Dept of Computing NEXT Noise Near End Cross Talk (NEXT) originates from other wires in the same cable. Crosstalk is avoided by a network technician using proper installation procedures including: Strict adherence to RJ-45 termination procedures (Chapter 5); Using high quality twisted pair cabling Institute of Technology Sligo - Dept of Computing EMI/RFI Noise EMI (Electromagnetic Interference) and RFI (Radio Frequency Interference) attack the quality of electrical signals on the cable. Sources of EMI/RFI include: Fluorescent lighting (EMI) Electrical motors (EMI) Radio systems (RFI) Institute of Technology Sligo - Dept of Computing EMI/RFI Noise Example Digital Signal Source computer sends out a digital signal. Along the path, the signal encounters EMI noise. The digital signal and EMI combine to distort the signal. EMI Distorted Signal Institute of Technology Sligo - Dept of Computing EMI/RFI Noise Two ways to prevent EMI/RFI Noise: Through shielding the wires in the cable with a metal braid or foil. (Increases cost and diameter of the cable) Through cancellation the wires are twisted together in pairs to provide self-shielding within the network media. Institute of Technology Sligo - Dept of Computing Canceling EMI/RFI Noise UTP Cat 5 has eight wires twisted into four pairs. In each pair, one wire is sending data and the other is receiving. As the electrons flow down the wire, they create a small, circular magnetic field around the wire. Institute of Technology Sligo - Dept of Computing Canceling EMI/RFI Noise Since the two wires are close together, their opposing magnetic fields cancel each other. They also cancel out outside magnetic fields (EMI/RFI). Twisting of the wires enhances cancellation Institute of Technology Sligo - Dept of Computing Bits Are Distorted By... Propagation Attenuation Reflection Noise Timing Problems Collisions Institute of Technology Sligo - Dept of Computing Timing Problems Dispersion—similar to attenuation; is the broadening of a signal as it travels down the media. Jitter—caused by unsynchronized clocking signals between source and destination. This means bits will arrive later or earlier than expected. Latency—is the delay of a network signal caused by: Time it takes a bit to travel to its destination Devices the bit travels through Institute of Technology Sligo - Dept of Computing Bits Are Distorted By... Propagation Attenuation Reflection Noise Timing Problems Collisions Institute of Technology Sligo - Dept of Computing Collisions Collisions occur in broadcast topologies where devices share access to the network media. A collision happens when two devices attempt to communicate on the sharedmedium at the same time. Collisions destroy data requiring the source to retransmit. The prevention of collisions will be discussed in more detail later in the semester. Institute of Technology Sligo - Dept of Computing Final Topic: Encoding Encoding is the process of converting binary data into a form that can travel on a physical communications link. For our purposes, you only need to know the two types of encoding schemes most commonly used: Manchester NRZ (non-return to zero) Institute of Technology Sligo - Dept of Computing Good Luck on the Test!!