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Final Exam Review

Potentialing and Looping Circuits

  • Black = Circuit Status

    • Switches, Relays opened, closed

    • Faults

  • Blue = Current Flow (Electron Flow Theory)

  • Red = Positive Potential

  • Green = Positive Potential

  • Draw positive potential or negative potential to an open(switch or relay) and ON loads

Current and Amperage

  • Must have a complete path from - to +

  • Total amperage depends on total loads or resistance of the circuit

    • Parallel circuits: IT = I1 + I2 + I3

    • Series circuits: I is constant

3 Prime faults in electrical circuits

  • Open

    • No continuous loop = no current flow

    • A break in the loop where there should not be

    • “OL“ reading on multimeter

  • Short

    • Internal short

      • If a load has a specific resistance but indicates lower than normal resistance

      • Current flow increases

      • Circuit breaker will pop depending on how much of an internal short

    • Bypass short

      • Wires are touching another part of the circuit or are switched

    • Short to ground (STG)

      • Unintended path to ground (airframe)

      • No load or resistance but path is completed

      • Will have high current

      • Circuit breaker will pop depending on location

  • Added resistance

    • More resistance = less amperage

    • Higher than normal indication on multimeter

      • Examples:

        • Light will be dimmer

        • Landing gear or a flap motor would be slower than normal

Crimping and Wire Stripping

  • Use the correct size wire stripper for the size wire

  • Strip only insulation, do not strip or nick any of the conductor strands

    • Reject if any strands are nicked or broken

  • Strip the correct amount of insulation form the conductor

    • Amount of insulation depends on the terminal barrel that the wire is being crimped to

Inspection points for crimps

  • Proper strip length

    • Too much insulation stripped can cause interference with installation hardware

    • Too little insulation stripped will not allow proper inspection after crimping

  • No conductor should be showing at the end of the terminal

    • Exception: Daniels crimpers instructions specify that there should be some conductor visible at the end of the connector

  • Two crimps are made with one crimping action

    • Barrel to insulation

    • Barrel to conductor

  • Tug test: Slight pull to test strength of crimp to wire

    • Pull only: Do NOT bend or twist

Connectors

  • Plugs and jacks

    • P1 mates to J1, P2 mates to J2, ect.

  • Mating or demating connectors

    • Ensure power is OFF

    • Ensure proper alignment so as not to damage or bend any pins

    • Always use proper tools (if tools are required)

    • Do NOT pull on the wires

AC43.13

  • Use this when the manufacturer has not provided data regarding the repair or inspection being preformed

  • (Figured 11-2) Determining wire size

    • Wire size is based on the current carrying capability of the wire and the allowable voltage drop

  • Circuit breakers and fuses protect the wiring, not the loads

    • Amperage rating for circuit breakers and fuses are determined by wire size

      • If circuit breaker amperage rating is too high it could lead to damaged wires

      • If circuit breaker amperage rating is too low the circuit will not operate without tripping the circuit breaker continuously

Wire ID

  • Prefix letter: only used when there are two of the same type of circuits installed (ie 2 lighting circuits)

  • Circuit function code: L2B20

    • L = Lighting

    • F = Flight instruments

    • X = AC power

    • P = Power

    • W = Warning

  • Wire number: L2B20

    • This is the 2nd wire in the lighting system

  • Segment letter: L2B20

  • Wire size L2B20

    • 20 AWG

  • Suffix (if used) L2B20N

    • N indicates the wire goes directly to ground or the negative bus

3 Things You Need for Electromagnetic Induction (Induced Voltage)

  • Magnetic field (coil is energized)

    • Can change the field by the number of windings in the coil or increasing the current for a stronger magnetic field

  • Conductor

  • Relative motion

Alternators and Related Systems

  • Rotor (Rotates)

    • Rotating electro-magnet

    • Strength of magnet is determined by the input current (field current)

    • Current travels through the brushes to the slip rings then to the rotor coil

  • Stator (Stationary) - Conductor

    • Rotor rotates inside of stator windings

    • 3 sets of windings, 120° apart that produce AC current (3 windings = 3 phase)

    • Voltage is induced across the stator wires

    • 2 types: “Wye“ type and “Delta“ type

  • Rectifier

    • Changes the 3 phase AC produced in the stator to DC

    • Output voltage is pulsating DC

    • Diodes in series and reverse bias between a power supply and a coil = rectification diode

    • Because the diodes are in reverse bias to the battery, they also prevent the stator coils from becoming a load to any DC source (ie battery or external power) when the Engine is not running

  • Capacitor

    • Reduces the ripple of the pulsating DC

    • Also reduces radio noise (static)

Alternator Inspection

  • Rotor

    • Test for open

      • One meter probe on each slip ring

      • Open rotor = OL or infinite reading on meter

    • Short (Internal)

      • One meter probe on each slip ring

      • Internally shorted rotor = lower resistance than normal specified by manufacturer

    • Short to ground (STG)

      • One meter probe on either slip ring and one on ground (center post)

      • Rotor that is STG = any other reading than OL or infinity on meter

      • OL = normal indication

  • Stator

    • Testing for open

      • For “Wye“ stator: one meter probe on a phase or one meter probe on a phase and one on neutral (must tell all 3 phases)

      • For “Delta“ stator: disconnect one junction of stator wires and test at that point (one meter probe on each side)

        • This tests all 3 phases at the same time

      • Normal indication on meter = <1 Ohm (check specific manufacturer’s manual)

    • Testing for STG

      • One meter probe on any phase and one on ground (Frame)

      • Anything other than OL or infinity is an indication of STG

  • Rectifier

    • Each diode must be tested in FWD bias and REV bias using the diode test function on mulit meter

    • 6 diodes test total 12 times

      • FWD Bias = 0.5V

      • REV Bias = OL

Voltage Regulator (Magic Circle)

  • Change in RMP or change in load will change the output voltage of the alternator

    • Change of output voltage sensed by voltage regulator

    • Voltage regulator sense change and adjusts current going to the rotor (field current) as necessary

      • Increase field current to increase output voltage and vice versa

Alternator Schematic

  • Ammeter #1 - alternator ammeter

    • Never will indicate left of zero

  • Ammeter #2 - battery ammeter

    • Left of zero indication = battery is the source for the electrical system and is discharging

    • Right of zero = battery is load to the alternator and is charging

  • External power relay

    • Power must be correct polarity for the external power relay to energize

  • Hot bus

    • CTTO loads - can’t turn them off. Loads that are always on even when the battery or master switch is OFF

      • Clock

      • Door lights

  • Diodes

    • Blocking diodes (D7) - prevents hot bus from powering main bus, but allows main bus to power hot bus

    • Polarization diode (D5, D8) - prevents opposite polarity form entering the system

    • Clipping diode or voltage spike suppression diode (D1, D6, D10) - prevents opposite polarity voltage spike form the collapsing magnetic field of a coil from entering the system

  • Alternator run scenarios

    • Ammeter #1 Alternator ammeter (will never indicate left of 0)

    • Ammeter #2 Battery ammeter

      • Indicating left of 0 = battery discharging

      • Indicating right of = battery charging

A&P Privileges

  • A&P cannot repair instruments

    • Repair of instruments must completed by an appropriately rated repairman or repair station

Pitot Static System

  • Altimeter

    • Static

  • Vertical Speed Indicator

    • Static

  • Airspeed Indicator

    • Pitot & static

  • Pitot Heat

    • Prevents ice from blocking the pitot tube

Vacuum Pumps

  • Wet type pumps

    • Uses engine oil for lubrication

  • Dry type pumps

    • Uses dust from carbon vanes for lubrication

Sensors, sensing & Switches

  • Micro - switches

    • Takes only a small (micro) amount of movement to activate

  • Synchros indicate movement and can indicate in an infinite number of positions (i.e. they are synchronized with the movement of something)

Temperature Sensing

  • Thermocouples

    • EGT probes are typically chrome - Alumel combination because they can withstand the hottest temperatures

    • When a thermocouple fails, it typically indicates cooler than normal

    • CHT can be measured from either the side of the cylinder or at the spark plug

      • If using a spark plug gasket type CHT thermocouple, be sure to remove the original spark plus gasket

MAP (Manifold Absolute Pressure)

  • When engine is not running, the MAP gauge should indicate ambient pressure (Approximately 30” HG)

  • Normally aspirated engines typically red line around 29” HG

  • Turbocharged engines typically red line above 30”HG

Types of Nav Radios

  • GPS

    • Location (Position)

    • Provide Earth’s latitude and longitude

  • ADF

    • Bearing (Direction)

    • Direction to ground station

  • VHF Nav or VOR

    • Bearing (Direction)

    • For navigation to and from a ground station

  • DME

    • Distance

    • Distance to ground position

Types of Transponder

  • Mode A - Basic ID only

  • Mode C - ID and altitude (MSL)

  • Mode S - ID, altitude, and TCAS information

Antennas

  • Marconi

    • ¼th wavelength

    • Need a ground plane

  • Hertz Di - Pole

    • ½ wavelength

  • Higher frequency means shorter antenna

Modulation

  • Amplitude Modulation (AM)

    • Amplitude varies

    • Frequency does not change

  • Frequency Modulation (FM)

    • Frequency varies

  • Pulse Width Modulation (Digital)

    • Amplitude varies

    • Frequency does not change

Installation of equipment into aircraft and paperwork requirements

  • Major alteration

    • Approved data used for FAA form 337

  • Minor alteration

    • Equipment list

Notes

  • A open switch cannot be a fault

Final Exam Review

Potentialing and Looping Circuits

  • Black = Circuit Status

    • Switches, Relays opened, closed

    • Faults

  • Blue = Current Flow (Electron Flow Theory)

  • Red = Positive Potential

  • Green = Positive Potential

  • Draw positive potential or negative potential to an open(switch or relay) and ON loads

Current and Amperage

  • Must have a complete path from - to +

  • Total amperage depends on total loads or resistance of the circuit

    • Parallel circuits: IT = I1 + I2 + I3

    • Series circuits: I is constant

3 Prime faults in electrical circuits

  • Open

    • No continuous loop = no current flow

    • A break in the loop where there should not be

    • “OL“ reading on multimeter

  • Short

    • Internal short

      • If a load has a specific resistance but indicates lower than normal resistance

      • Current flow increases

      • Circuit breaker will pop depending on how much of an internal short

    • Bypass short

      • Wires are touching another part of the circuit or are switched

    • Short to ground (STG)

      • Unintended path to ground (airframe)

      • No load or resistance but path is completed

      • Will have high current

      • Circuit breaker will pop depending on location

  • Added resistance

    • More resistance = less amperage

    • Higher than normal indication on multimeter

      • Examples:

        • Light will be dimmer

        • Landing gear or a flap motor would be slower than normal

Crimping and Wire Stripping

  • Use the correct size wire stripper for the size wire

  • Strip only insulation, do not strip or nick any of the conductor strands

    • Reject if any strands are nicked or broken

  • Strip the correct amount of insulation form the conductor

    • Amount of insulation depends on the terminal barrel that the wire is being crimped to

Inspection points for crimps

  • Proper strip length

    • Too much insulation stripped can cause interference with installation hardware

    • Too little insulation stripped will not allow proper inspection after crimping

  • No conductor should be showing at the end of the terminal

    • Exception: Daniels crimpers instructions specify that there should be some conductor visible at the end of the connector

  • Two crimps are made with one crimping action

    • Barrel to insulation

    • Barrel to conductor

  • Tug test: Slight pull to test strength of crimp to wire

    • Pull only: Do NOT bend or twist

Connectors

  • Plugs and jacks

    • P1 mates to J1, P2 mates to J2, ect.

  • Mating or demating connectors

    • Ensure power is OFF

    • Ensure proper alignment so as not to damage or bend any pins

    • Always use proper tools (if tools are required)

    • Do NOT pull on the wires

AC43.13

  • Use this when the manufacturer has not provided data regarding the repair or inspection being preformed

  • (Figured 11-2) Determining wire size

    • Wire size is based on the current carrying capability of the wire and the allowable voltage drop

  • Circuit breakers and fuses protect the wiring, not the loads

    • Amperage rating for circuit breakers and fuses are determined by wire size

      • If circuit breaker amperage rating is too high it could lead to damaged wires

      • If circuit breaker amperage rating is too low the circuit will not operate without tripping the circuit breaker continuously

Wire ID

  • Prefix letter: only used when there are two of the same type of circuits installed (ie 2 lighting circuits)

  • Circuit function code: L2B20

    • L = Lighting

    • F = Flight instruments

    • X = AC power

    • P = Power

    • W = Warning

  • Wire number: L2B20

    • This is the 2nd wire in the lighting system

  • Segment letter: L2B20

  • Wire size L2B20

    • 20 AWG

  • Suffix (if used) L2B20N

    • N indicates the wire goes directly to ground or the negative bus

3 Things You Need for Electromagnetic Induction (Induced Voltage)

  • Magnetic field (coil is energized)

    • Can change the field by the number of windings in the coil or increasing the current for a stronger magnetic field

  • Conductor

  • Relative motion

Alternators and Related Systems

  • Rotor (Rotates)

    • Rotating electro-magnet

    • Strength of magnet is determined by the input current (field current)

    • Current travels through the brushes to the slip rings then to the rotor coil

  • Stator (Stationary) - Conductor

    • Rotor rotates inside of stator windings

    • 3 sets of windings, 120° apart that produce AC current (3 windings = 3 phase)

    • Voltage is induced across the stator wires

    • 2 types: “Wye“ type and “Delta“ type

  • Rectifier

    • Changes the 3 phase AC produced in the stator to DC

    • Output voltage is pulsating DC

    • Diodes in series and reverse bias between a power supply and a coil = rectification diode

    • Because the diodes are in reverse bias to the battery, they also prevent the stator coils from becoming a load to any DC source (ie battery or external power) when the Engine is not running

  • Capacitor

    • Reduces the ripple of the pulsating DC

    • Also reduces radio noise (static)

Alternator Inspection

  • Rotor

    • Test for open

      • One meter probe on each slip ring

      • Open rotor = OL or infinite reading on meter

    • Short (Internal)

      • One meter probe on each slip ring

      • Internally shorted rotor = lower resistance than normal specified by manufacturer

    • Short to ground (STG)

      • One meter probe on either slip ring and one on ground (center post)

      • Rotor that is STG = any other reading than OL or infinity on meter

      • OL = normal indication

  • Stator

    • Testing for open

      • For “Wye“ stator: one meter probe on a phase or one meter probe on a phase and one on neutral (must tell all 3 phases)

      • For “Delta“ stator: disconnect one junction of stator wires and test at that point (one meter probe on each side)

        • This tests all 3 phases at the same time

      • Normal indication on meter = <1 Ohm (check specific manufacturer’s manual)

    • Testing for STG

      • One meter probe on any phase and one on ground (Frame)

      • Anything other than OL or infinity is an indication of STG

  • Rectifier

    • Each diode must be tested in FWD bias and REV bias using the diode test function on mulit meter

    • 6 diodes test total 12 times

      • FWD Bias = 0.5V

      • REV Bias = OL

Voltage Regulator (Magic Circle)

  • Change in RMP or change in load will change the output voltage of the alternator

    • Change of output voltage sensed by voltage regulator

    • Voltage regulator sense change and adjusts current going to the rotor (field current) as necessary

      • Increase field current to increase output voltage and vice versa

Alternator Schematic

  • Ammeter #1 - alternator ammeter

    • Never will indicate left of zero

  • Ammeter #2 - battery ammeter

    • Left of zero indication = battery is the source for the electrical system and is discharging

    • Right of zero = battery is load to the alternator and is charging

  • External power relay

    • Power must be correct polarity for the external power relay to energize

  • Hot bus

    • CTTO loads - can’t turn them off. Loads that are always on even when the battery or master switch is OFF

      • Clock

      • Door lights

  • Diodes

    • Blocking diodes (D7) - prevents hot bus from powering main bus, but allows main bus to power hot bus

    • Polarization diode (D5, D8) - prevents opposite polarity form entering the system

    • Clipping diode or voltage spike suppression diode (D1, D6, D10) - prevents opposite polarity voltage spike form the collapsing magnetic field of a coil from entering the system

  • Alternator run scenarios

    • Ammeter #1 Alternator ammeter (will never indicate left of 0)

    • Ammeter #2 Battery ammeter

      • Indicating left of 0 = battery discharging

      • Indicating right of = battery charging

A&P Privileges

  • A&P cannot repair instruments

    • Repair of instruments must completed by an appropriately rated repairman or repair station

Pitot Static System

  • Altimeter

    • Static

  • Vertical Speed Indicator

    • Static

  • Airspeed Indicator

    • Pitot & static

  • Pitot Heat

    • Prevents ice from blocking the pitot tube

Vacuum Pumps

  • Wet type pumps

    • Uses engine oil for lubrication

  • Dry type pumps

    • Uses dust from carbon vanes for lubrication

Sensors, sensing & Switches

  • Micro - switches

    • Takes only a small (micro) amount of movement to activate

  • Synchros indicate movement and can indicate in an infinite number of positions (i.e. they are synchronized with the movement of something)

Temperature Sensing

  • Thermocouples

    • EGT probes are typically chrome - Alumel combination because they can withstand the hottest temperatures

    • When a thermocouple fails, it typically indicates cooler than normal

    • CHT can be measured from either the side of the cylinder or at the spark plug

      • If using a spark plug gasket type CHT thermocouple, be sure to remove the original spark plus gasket

MAP (Manifold Absolute Pressure)

  • When engine is not running, the MAP gauge should indicate ambient pressure (Approximately 30” HG)

  • Normally aspirated engines typically red line around 29” HG

  • Turbocharged engines typically red line above 30”HG

Types of Nav Radios

  • GPS

    • Location (Position)

    • Provide Earth’s latitude and longitude

  • ADF

    • Bearing (Direction)

    • Direction to ground station

  • VHF Nav or VOR

    • Bearing (Direction)

    • For navigation to and from a ground station

  • DME

    • Distance

    • Distance to ground position

Types of Transponder

  • Mode A - Basic ID only

  • Mode C - ID and altitude (MSL)

  • Mode S - ID, altitude, and TCAS information

Antennas

  • Marconi

    • ¼th wavelength

    • Need a ground plane

  • Hertz Di - Pole

    • ½ wavelength

  • Higher frequency means shorter antenna

Modulation

  • Amplitude Modulation (AM)

    • Amplitude varies

    • Frequency does not change

  • Frequency Modulation (FM)

    • Frequency varies

  • Pulse Width Modulation (Digital)

    • Amplitude varies

    • Frequency does not change

Installation of equipment into aircraft and paperwork requirements

  • Major alteration

    • Approved data used for FAA form 337

  • Minor alteration

    • Equipment list

Notes

  • A open switch cannot be a fault

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