Electronics
T2a
T2a
Kartei Details
| Karten | 474 |
|---|---|
| Sprache | Deutsch |
| Kategorie | Elektronik |
| Stufe | Grundschule |
| Erstellt / Aktualisiert | 12.01.2015 / 21.01.2020 |
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Diffrent kinds of CSD
1. Hydro mechanical CSD (B737) and Electric CSD
2. Intergrated Drive Generator (IDG) A320
3. Variable speed constant frequency power system (VSCF)
The CSD is where and makes what?
is a mainly mechanical device, which is positioned between the engine driven gearbox and the brushless AC generator
a) Overdrive: RPM is too low, teh CSD gas to increase
b) Underdrive: RPM is too high, the CSD reduces the RPM
c) Straight drive: Without CSD intervention
Brushless Generator ?
RPM is 24'000 RPM and not 6000 RPM ==> which keeps the generator weight's weight low => Only one pair of poles is necessary => Big advantage is that neither commutation (Austausch), nor carbon brushes or slip rings are required
Hydro mechanical CSD
Hydro mechanical CSD contain the axial different gear
Electrical CSD
Electrical CSD can only decrease the RPM => not very common, because the maintenance costs are high => the slip rings need to be replaced frequently
What gives a warning by the CSD ?
The CSD are equipped with its own hydraulic oil system for the hydraulic pump and hydraulic motor => The temp. rises % 10 degrees provided that the inlet oil temp. is about 80 - 90 degrees
==> High Oil Temp or Low oil pressure => Master caution warning
IDG => Different to the CSD
The only difference is that the generator is part of the IDG ==> lighter and more compact unit => provided a 400 Hz constant supply if an electrical system with constant frequency => cooled by its own hydraulic oil system
VSCF
Variable speed constant frequency Generator: supplies the aircrafts AC system with constant AC-volatge and frequency without the help of a CSD
==> a speed increaser gear is installed between the accessory gearbox and the generator and increases the RPM of the brushless AC generator by a factor of approximately 1:3
VSCF => the variable RPM result in a variable voltage and frequency => The output is feed to?
VSCF => the variable RPM result in a variable voltage and frequency => The output is feed to a rectifier that converts teh AC into a DC volatge
Rectifier ? => TRU?
Inverter ?
Transformer ?
Rectifier: Gleichrichter => AC to DC transformer rectifier Units TRU
Inverter: Wechselrichter => DC to AC
Transformer: Frequencies changes
VSCF disconnect?
the disconnect switch deactivated the generator by interrupting the field current but without opening a decoupling clutch as in a hydraulic CSD or IDG
Variable frequency or Wild frequency Generators => how connected and the frequency?
the generator is directly connected to the engine and no technical system ( e.g. CSD) is required to keep the RPM constant. The frequency typically from 360 Hz to 800 Hz
=> Variable frequency generator type can be run only in isolated power supply systems => the frequency variations are not suitable for the direct operation of all types of AC consumers
How you can start the Variable Frequency Generator ? Advantages of a VFSG ?
A Variable Frequency Starter Generator ( VFSG) is used as a synchronous motor to start the engine => Advantages: Replaced the bleed air system and thereby weight saving and simplifies the APU design
APU ?
Auxiliary Power Unit: produces electrical power => same type of electrical power (200V/115V; three phases, 400Hz) => supplies compressed air on the ground for engine start => some APU's are equipped with their own dedicated 24 V battery
External power source? the receptacle consists of ?
External power source (200V/115, three phases, 400 Hz) => the receptacle consists of four thick pinks which provide the connection for the three electrical power phases A,B, and C as well as for the common neutral port
Battery: Voltage ? and what is always powered ?
NiCd batteries with a DC voltage of 24 V is charged during normal operation of the electrical power system => Only the hot battery bus is always powered by the battery ==> Monitore the battery temp. for a thermal runway
Because of the high power desnity compared to NiCa batteroes more and more xy batteries are installed in modern aircrafts
Because of the high power desnity compared to NiCa batteroes more and more Li-Ion batteries are installed in modern aircrafts
Li-Ion batteries functions?
As a chemical principle they are using graphite at the negative electrode and a water free electrolyte mostly based on organic solvents
RAT: was macht die RAT and 3 types?
the Ram Air Turbine provides hydraulic power to powered actuation of flight control surface and electric power for flight control computers, essential instruments, radio, cockpit lighting, windshield- and pitot tube de-icing
1. hydraulic RAT: directly a hydraulic pump
2. electrical RAT: directly an AC generator
3. hybrid RAT: a hdraulic pump and a AC generator are driven => power by hydraulic lines and cables directly from the RAT
RAT = constant speed => wie wird das sichergestellt?
The mechanism adjusts blade angle to maintain const. station speed by a spring, which moves the blades in the starting position and a counter weight on each blade
=> reduces the speed, the inertia force decreases ant the spring force rotates the counterweights and the blades backe
How can a RAT be activated?
1. Automatic switching occurs if the respective AV buses ( 1 and 2) fail to ne provided with a power at a minimum
2. the pilot can extend the RAT
=> when a RAT extends, a proximity switch operates and sends a signal to the system => RAT out
Why do aircraft use three phase power rather than one phase power?
Three phases AC systems enable aircraft systems to make use of asynchronous motors and effective three phase transformers => three phases generators provided two different AC output voltage
WHat is the frquency in large airctfat AC systems
400 Hz
How does an increase in AC frequency affect ohmic resistance?
There is no change in ohmic resistance
How does an increase in AC frequency affect capacitive resistance?
The Capacity resistance decrease
How does an increase in AC frequency affect inductive resistance?
The inductive resistance increases
How does voltage control work in three-phase AC generators ?
Feeding back the output voltage of the main generator to the voltage regulator closes the central loop. The voltage regulator is then able to keep the voltage constant throughout a wide range of load variations. It provided a constant voltage output for the generator by varying the current flow through the field coils of the exciter generator
What is the correct therm for the electrcal configuration of the coils inside the generator?
The three-stator windings, which generate the output power generators, are connected in a star configuration
What is the function of a CSD ?
to keep the generator frequency at 400 Hz in all engine RPM ranges from idle to full thrust
What kind of speed regulator is isntalled in an IDG ?
a hydro-mechanical speed regulator is integrated in the IDG
If emergency power, the batteries have to supply xy ?
If emergency power, the batteries have to supply AC busses directly via a static Inverter and DC busses => All AC power is provided at 115 V and at a frequency of 400 HZ
=> 30 minutes with 24 V DC diretly to the emergency bus
three general categories of the AC and DC power distrubution
1. main power: => supplied by teh main power distrubution (main bus)
2. essential power distribution => when the main busses fails
3. emergency- or the standy- power distrubution system => supplied by the main power sourced via the essential power distrubution
=> sometimes (Airbus) there isn't a seperate emergency bus => essential bus takes over teh functions of teh emrgency bus
The diffrent generator power supply ?
Isolated/split system and parallel system => Each system consist of an AC generator and contains it own AC and DC busses => If one fails = changer relay
If APU or engine generator power i supplied to a single generator bis while ground power is connected to both generator busses, what happens?
If APU or engine generator power i supplied to a single generator bis while ground power is connected to both generator busses, the ground power continues to supply power to the other generator
If several power supplies are available, the priority?
1. by the corresponding generator
2. external power
3. APU
4. by the other generator
AC BUS 1 and AC BUS 2 loss, what happens ?
teh AC ESS BUS is restored automatically by the constant speed motor/generator as soon as RAT hydraulic port is available => without CSM/G the battery supplies the AC ESS BUSS via s static inverter
Power to the essential buss is guaranteed by?
1. GEN 1 or 2 or the APU 2. EMER GEN 3. the batteries
Parallel Generator Supply => was ist das and what happens when wône fails
allows for synchronized generator to run in parallel => If a generator fails, the remaining generators support the total load without switching
What you must do, that by a parallel generator supply the generators are un equal voltagem frequency and phase ?
1. Close the bus Tie Breaker (BTB)
2. the respective Generator aligns itself parallel to the AV synchronous buss after the Generator Breaker GB closes (if the voltage of bus and generator are equal)
Load sharing ?
to ensure that all parallel generators work at the same capacity => they share the same load
==> Independent load regulation circuits are necessary to provide identical lading conditions for all parallel generators, because the total AC load, the so-called apparent load, is cimposed of a real and a reactive component
