PSC 4011
Electricity:
What’s the connection?
PSC 4011: AC-DC, Transmission & Distribution
Direct Current (DC):
_I never changes direction
_Voltage is constant*
_Intensity is constant*
* V & I are constant if R is kept constant
PSC 4011: AC-DC, Transmission & Distribution
Direct Current (DC):
_Used to operate portable battery-operated devices (mp3 players, toys, remote controls, etc.)
PSC 4011: AC-DC, Transmission & Distribution
Alternating Current (AC):
_ I (and V) regularly change direction
_ I (and V) are not constant
_Vrms = 0.707 Vpeak
_ Irms = 0.707 Ipeak
_ Change of direction is given by frequency value
*rms: root mean square value (average value)
PSC 4011: AC-DC, Transmission & Distribution
Alternating Current (AC):
_Can be converted to DC using a rectifier
_Use a transformer to increase or decrease voltage
*DC can be converted into AC using an inverter (less common)
PSC 4011: AC-DC, Transmission & Distribution
Practice
An electric range operates on 240 Vrms.
_Between which two voltage values does it oscillate?
_Calculate Irms and Ipeak when it draws 5000W of power.
Vrms = 0.707 Vpeak
Vpeak = Vrms / 0.707 = 240V / 0.707Vpeak = 339 V (-339V & 339V)
P = Vrms * Irms Irms = P / Vrms = 5000 W / 240 VIrms = 21 A
Irms = 0.707 Ipeak
Ipeak = Irms / 0.707 = 21A / 0.707Ipeak = 30 A (-30A & 30A)
PSC 4011: AC-DC, Transmission & Distribution
Power systems generate AC (at 60 Hz) AC is transmitted through high tension wires AC is rectified (or not) into DC for residential use AC’s voltage is changed by transformers for
residential use
PSC 4011: AC-DC, Transmission & Distribution
Step down transformers
Voltage secondary winding is lower than at primary winding Number of turns of secondary winding is less than the number of turns of primary
winding Current intensity of secondary winding is higher than at primary winding
Pprimary (Pp) = Psecondary (Ps)
Vp Ip = Vs Is
If Vs < Vp then Is > Ip
for Pp= Ps
Joule Effect more pronounced for secondary winding (P = RI2)
PSC 4011: AC-DC, Transmission & Distribution
Step up transformers
Voltage secondary winding is higher than at primary winding Number of turns of secondary winding is more than the number of turns of primary winding Current intensity of secondary winding is lower than at primary winding
Pprimary (Pp) = Psecondary (Ps)
Vp Ip = Vs Is
If Vs > Vp then Is < Ip
for Pp= Ps
Joule Effect more pronounced for primary winding (P = RI2)
PSC 4011: AC-DC, Transmission & Distribution
Transformer Voltage No. of turns Intensity Joule EffectStep-up V1 < V2 NT1 < NT2 I1 > I2 JE1 > JE2
Step-down V1 > V2 NT1 > NT2 I1 < I2 JE1 < JE2
PSC 4011: AC-DC, Transmission & Distribution
From transformer to residential use:
All wires from transformer go to the distribution panel (house’s electrical box)
Distribution panel contains the main and the bus bars
Each bus bar is connected to one of the wires from the transformer
From distribution panel to house: branch circuits (circuit loops of two-way current)
PSC 4011: AC-DC, Transmission & Distribution
Connection between transformer wires and bus bars (distribution panel):
PSC 4011: AC-DC, Transmission & Distribution
Branch circuits (120 V) Between a live bus bar (120 V: black or red wire) and
the neutral bus bar (0 V: white wire) Require one circuit breaker (after live bus bar)
Branch circuits (240 V) Between two live bus bars (120 V: black and red wires)
and the neutral bus bar (0 V: white wire) Require two circuit breakers (after both live bus bars)
PSC 4011: AC-DC, Transmission & Distribution
Conductors
Quebec uses American Wire Gage (AWG) notation AWG notation’s high number, small diameter conductor AWG notation’s low number, big diameter conductor AWG notation’s high number, high resistance conductor AWG notation’s low number, low resistance conductor
PSC 4011: AC-DC, Transmission & Distribution
Practice
Consider three conductor wires measuring 12, 14 and 16 AWG.
_Which one is the largest?
_Which one has the highest resistance?
_Which one can carry the most current without overheating?
12
16
12
PSC 4011: AC-DC, Transmission & Distribution
General purpose branch circuits
(for 120 V- outlets or rarely used
appliances)
Branch circuits that power several parallel outlets. Thus, the same power is provided to several independent outlets and light fixtures
(e.g. for two bedrooms)
PSC 4011: AC-DC, Transmission & Distribution
Single purpose branch circuits
(for 240 V- outlets or appliances
that demand much more energy)
Branch circuits that power one outlet. Thus, the highest possible power is provided to the outlet and appliance connected to it
(e.g. electric range or clothes dryer)
PSC 4011: AC-DC, Transmission & Distribution
Single purpose branch circuits
_Very useful in kitchen or
workshops
_Must avoid multiple plug connections
(e.g. “octopus” configuration) in order to: Not exceed I supplied by wires or limited by fuse
or circuit breakers Not risk overheating of wires or maybe even a
fire
PSC 4011: AC-DC, Transmission & Distribution
Outlets
Make possible to plug appliances
into the distribution circuit
Most popular: double outlet (accommodates two plugs)
PSC 4011: AC-DC, Transmission & Distribution
PSC 4011: AC-DC, Transmission & Distribution
PSC 4011: AC-DC, Transmission & Distribution
PSC 4011: AC-DC, Transmission & Distribution
Practice
PSC 4011: AC-DC, Transmission & Distribution
PSC 4011: AC-DC, Transmission & Distribution
Three-prong plugs Mostly for metal
housing appliances Third prong is a safety
precaution Third prong maintains
housing at 0V (brings current to ground)
Keeps you from electroshock
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