Technician Licensing Class T4

About This Presentation

Title:

Technician Licensing Class T4

Description:

Sixty (60) hertz (Hz) means 60 cycles per second. 15 ... Voice frequencies are sound waves in the range between 300 and 3000 Hertz. ... Sound waves 300 to 3000 Hertz ... – PowerPoint PPT presentation

Number of Views:76

Avg rating:3.0/5.0

Slides: 103

Provided by: k3dio8

Category:

more less

Transcript and Presenter's Notes

Title: Technician Licensing Class T4

1
Technician Licensing ClassT4

Presented by the
Plano Texas Stake
Plano, Texas
January 13, 2007

2
Amateur Radio Technician ClassElement 2Course
Presentation

ELEMENT 2 SUBELEMENTS
T1 - FCC Rules, station license responsibilities
T2 - Control operator duties
T3 - Operating practices
T4 - Radio and electronic fundamentals
T5 - Station setup and operation
T6 - Communications modes and methods
T7 - Special operations
T8 - Emergency and Public Service Communications
T9 - Radio waves, propagation, and antennas
T0 - Electrical and RF Safety

3
Radio and electronic fundamentals T4A

Names of electrical units DC and AC
Electrical current is measured in the following
units
Amperes
The name for the flow of electrons in an electric
circuit is
Current
The name for a current that flows only in one
direction is
Direct Current (DC)

4
Radio and electronic fundamentals T4A

Names of electrical units DC and AC
Electrical Power is measured in the following
units
Watt
The standard unit of frequency is
Hertz
The basic unit of resistance is
Ohm
The name for current that reverses direction on a
regular basis is
Alternating Current (AC)

5
Multimeter(s)
Multimeters will measure Voltage, Current and
Resistance. Be sure it is set properly to read
what is being measured. If it is set to the ohms
setting and voltage is measured the meter could
be damaged!
6
Radio and electronic fundamentals T4A

Conductors and insulators (cont)
Copper is a good electrical conductor.
Glass is a good electrical insulator.
The term used to describe opposition to current
flow in ordinary conductors such as wires is
Resistance.

7
Radio and electronic fundamentals T4A

Conductors and insulators
Conductors
Gold
Silver
Copper
Aluminum
Insulators
Air
Rubber
Plastic
Ceramic

8
Radio and electronic fundamentals T4A

Two types of electricity
Direct Current - flows in 1 direction
Battery
1.5 to 2.5 volts per cell
Car battery nominal 12 volts
Measured strictly by amplitude
Alternating Current - alternates direction
Household
Measured by
Average Amplitude
Frequency (cycles per second)(Hertz)

9
Alternating Direct Current
V
DC
0V
AC
V-
time
10
Radio and electronic fundamentals T4A

Electrical components
An automobile battery usually supplies about 12
volts DC.
An Ammeter is an instrument used to measure the
flow of current in an electrical circuit.
A Voltmeter is an instrument used to measure
Electromotive Force (EMF)
between two points such as the poles of a battery.

11
Radio and electronic fundamentals T4A
Ammeter
Power Supply
Transceiver
12
Radio and electronic fundamentals T4A
Ohmmeter
13
Radio and electronic fundamentals T4A
Voltmeter
Power Supply
Transceiver
14
Radio and electronic fundamentals T4B

Relationship between frequency and wavelength
Wavelength is the term used for the distance a
radio wave travels during one complete cycle.
The term Frequency describes the number of times
that an alternating current flows back and forth
per second.
Sixty (60) hertz (Hz) means 60 cycles per second.

15
The Relationship of Frequency and Wavelength

The distance a radio wave travels in
one cycle is called wavelength.

V
One Cycle
0V
time
V-
One Wavelength
16
Radio and electronic fundamentals T4B

Relationship between frequency and wavelength
The wavelength gets shorter as the frequency
increases.
Wavelength in meters equals 300 divided by
frequency in megahertz.
A radio wave travels through space at the speed
of light.

17
Radio and electronic fundamentals T4B

Identification of bands
The property of a radio wave often used to
identify the different bands amateur radio
operators use is the physical length of the wave.
The frequency range of the 2-meter band in the
United States is 144 to 148 MHz.
The frequency range of the 6-meter band in the
United States is 50 to 54 MHz.
The frequency range of the 70-centimeter band in
the United States is 420 to 450 MHz.

18
Radio and electronic fundamentals T4B

Names of frequency ranges, types of waves
Voice frequencies are sound waves in the range
between 300 and 3000 Hertz.
Electromagnetic waves that oscillate more than
20,000 times per second as they travel through
space are generally referred to as Radio waves.

19
Radio and electronic fundamentals T4C

How radio works receivers, transmitters,
transceivers, amplifiers, power supplies, types
of batteries, service life

A Receiver is used to convert radio signals into
sounds we can hear. A Transmitter is used to
convert sounds from our voice into radio
signals. A Receiver and Transmitter are two
devices combined into one unit in a transceiver.
20
Radio and electronic fundamentals T4C

How radio works receivers, transmitters,
transceivers, amplifiers, power supplies, types
of batteries, service life (cont)

A Power Supply is the device used to convert the
alternating current from a wall outlet into
low-voltage direct current. An Amplifier is a
device used to increase the output of a 10 watt
radio to 100 watts.
21
Radio and electronic fundamentals T4C

How radio works receivers, transmitters,
transceivers, amplifiers, power supplies, types
of batteries, service life (cont)

A Lithium-ion battery offers the longest life
when used with a hand-held radio, when comparing
battery types of the same physical size. The
nominal voltage per cell of a fully charged
nickel-cadmium battery is 1.2 volts. A
Carbon-zinc battery is not designed to be
re-charged.
22
Radio and electronic fundamentals T4C

How radio works receivers, transmitters,
transceivers, amplifiers, power supplies, types
of batteries, service life (cont)
In order to keep rechargeable batteries in good
condition and ready for emergencies
They must be inspected for physical damage and
replaced if necessary
They should be stored in a cool and dry location
They must be given a maintenance recharge at
least every 6 months
All of these answers are correct
The best way to get the most amount of energy
from a battery is to draw current from the
battery at the slowest rate needed.

23
Radio and electronic fundamentals T4D

Ohms law relationships
The formula, Voltage (E) equals current (I)
multiplied by resistance (R).
E IR
The formula, Current (I) equals voltage (E)
divided by resistance (R).
I E/R
The formula, Resistance (R) equals voltage (E)
divided by current (I).
R E/I

24
Meter Excercise
What circuit quantity would meter A indicate?
R
Battery voltage
What circuit quantity would meter B indicate?
The current flowing through the resistor
25
Ohms Law
Electromotive Force, VOLTS
The flow of Electrons, AMPERES
Resistance to current flow, OHMS
26
Radio and electronic fundamentals T4D

Ohms law relationships (cont)
If I3 amperes and E90 volts.
R E/I R 90/3 30
If E12 volts and I1.5 amperes.
R E/I R 12/1.5 8
If E120 volts and R80 ohms.
I E/R I 120/80 1.5

27
Radio and electronic fundamentals T4D

Ohms law relationships (cont)
If a current of 0.5 amperes flows through a 2 ohm
resistor.
EIR E 0.5 2 1 volt
If a current of 1 ampere flows through a 10 ohm
resistor.
EIR E 1 10 10 volts
If a current of 2 amperes flows through a 10 ohm
resistor.
EIR E 2 10 20 volts
Current through a 100 ohm resistor across 200
volts.
IE/R I 200/100 2 amperes
Current through a 24 ohm resistor across 240
volts.
IE/R I 240/24 10 amperes

28
Radio and electronic fundamentals T4D

Ohms law relationships (cont)
If a current of 0.5 amperes flows through a 2 ohm
resistor.
EIR E 0.5 2 1 volt
If a current of 1 ampere flows through a 10 ohm
resistor.
EIR E 1 10 10 volts
If a current of 2 amperes flows through a 10 ohm
resistor.
EIR E 2 10 20 volts
Current through a 100 ohm resistor across 200
volts.
IE/R I 200/100 2 amperes
Current through a 24 ohm resistor across 240
volts.
IE/R I 240/24 10 amperes

29
Power
Power is measured in Watts
P E x I
Ohms law states E I x R
So, for this circuit, the power consumed in the
resistor can be calculated by multiplying the
value of the resistor times the square of the
reading of Meter B.
30
Radio and electronic fundamentals T4E

Power calculations
The unit used to describe electrical power is the
Watt.
The formula Power (P) equals voltage (E)
multiplied by current (I).

P I E

31
Radio and electronic fundamentals T4E

Power calculations (cont)
How much power is represented by a voltage of
13.8 volts DC and a current of 10 amperes.
P I E P 10 13.8 138 watts
How much power is being used in a circuit when
the voltage is 120 volts DC and the current is
2.5 amperes.
P I E P 2.5 120 300 watts

32
Radio and electronic fundamentals T4E

Power calculations (cont)
You can you determine how many watts are being
drawn consumed by your transceiver when you are
transmitting by measuring the DC voltage at the
transceiver and multiplying by the current drawn
when you transmit.
How many amperes is flowing in a circuit when the
applied voltage is 120 volts DC and the load is
1200 watts.
I P/E I 1200/120 10 amperes.

33
Ohms law formulas

34
Metric Prefixes

Metric Exponent English
Tera 1012 Trillion
Giga 109 Billion
Mega 106 Million
Kilo 103 Thousand
Centi 10-2 Hundredth
Milli 10-3 Thousandth
Micro 10-6 Millionth
Nano 10-9 Billionth
Pico 10-12 Trillionth

35
Radio and electronic fundamentals T4

Units, kilo, mega, milli, micro
One thousand volts is equal to one kilovolt.
Another way to specify the frequency of a radio
signal that is oscillating at 1,500,000 Hertz is
1500 kHz
or 1.5 megahertz
1500 milliamperes is the same as 1.5 amperes.
A hand-held transceiver that has an output power
of 500 milliwatts can otherwise be said to output
0.5 watts.
One one-millionth of a volt is equal to one
microvolt.

36
Take aways

Unit of current amperes
Electron flow is current
Current flowing in one direction is DC
Unit of power Watt
Unit of frequency Hertz
Unit of resistance Ohm
Current that reverses direction is AC

37
Take aways (cont)

Copper is a good conductor
Glass is a good insulator
Opposition to current flow . Resistance
Conductorsgold, silver, copper, aluminum
Insulatorsair, rubber, plastic, ceramic

38
Take aways (cont)

Car battery 12 volts DC
DC measured by amplitude
AC measured by Average Amplitude
Ammeter measures current
Volt meter measures voltage
Sixty hertz means 60 cycles per second

39
Take aways (cont)

Frequency describes number of times AC flows back
and forth per second
Wavelength is distance a radio wave travels
during one complete cycle
Frequency increases as wavelength gets shorter
Wavelength in meters equals 300 divided by
frequency in MHz
Radio waves travel at speed of light

40
Take aways (cont)

Bands identified by physical length (or
wavelength)
2-meter band 144 to 148 MHz
6-meter band 50 to 54 MHz
70-centimeter band 420 to 450 MHz
Sound waves 300 to 3000 Hertz
Radio waves are Electromagnetic and are 20,000
cycles per second and higher

41
Take aways (cont)

Receiver converts radio signals to audio
Transmitter converts sound into radio waves
Transceiver is two devices in one, receiver and
transmitter
Power supply converts AC to DC.
Amplifier increases power output
Lithium-ion battery offers longest life in HTs
Ni-Cad per cell voltage is 1.2 volts
Carbon-zinc battery cannot be re-charged

42
Take aways (cont)

Keep re-chargeable batteries in good condition
for emergencies
Inspect for damage
Store in cool and dry location
Given maintenance recharge every 6 months
All of these answers are correct
Slowest rate of current drain gives most amount
of energy

43
Take aways (cont)

Ohms Law
Power calculations

44
Take aways (cont)

One kilovolt is one thousand volts
1500 KHz is 1,500,000 Hertz
1.5 amps is 1500 milliamperes
500 milliwatts is 0.5 watts
One microvolt is one one-millionth of a volt

45
Element 2 Technician Class Question PoolT4
Valid July 1, 2006 Through June 30, 2010
46
T4A01 Electrical current is measured in
which of the following units?

Volts
Watts
Ohms
Amperes

47
T4A02 Electrical Power is measured in which
of the following units?

Volts
Watts
Ohms
Amperes

48
T4A03 What is the name for the flow of
electrons in an electric circuit?

Voltage
Resistance
Capacitance
Current

49
T4A04 What is the name of a current that
flows only in one direction?

An alternating current
A direct current
A normal current
A smooth current

50
T4A05 What is the standard unit of
frequency?

The megacycle
The Hertz
One thousand cycles per second
The electromagnetic force

51
T4A06 How much voltage does an automobile
battery usually supply?

About 12 volts
About 30 volts
About 120 volts
About 240 volts

52
T4A07 What is the basic unit of resistance?

The volt
The watt
The ampere
The ohm

53
T4A08 What is the name of a current that
reverses direction on a regular basis?

An alternating current
A direct current
A circular current
A vertical current

54
T4A09 Which of the following is a good
electrical conductor?

Glass
Wood
Copper
Rubber

55
T4A10 Which of the following is a good
electrical insulator?

Copper
Glass
Aluminum
Mercury

56
T4A11 What is the term used to describe
opposition to current flow in ordinary
conductors such as wires?

Inductance
Resistance
Counter EMF
Magnetism

57
T4A12 What instrument is used to measure the
flow of current in an electrical circuit?

Frequency meter
SWR meter
Ammeter
Voltmeter

58
T4A13 What instrument is used to measure
Electromotive Force (EMF) between two points
such as the poles of a battery?

Magnetometer
Voltmeter
Ammeter
Ohmmeter

59
T4B01 What is the name for the distance a radio
wave travels during one complete cycle?

Wave speed
Waveform
Wavelength
Wave spread

60
T4B02 What term describes the number of times
that an alternating current flows back and
forth per second?

Pulse rate
Speed
Wavelength
Frequency

61
T4B03 What does 60 hertz (Hz) mean?

6000 cycles per second
60 cycles per second
6000 meters per second
60 meters per second

62
T4B04 Electromagnetic waves that oscillate more
than 20,000 times per second as they
travel through space are generally
referred to as what?

Gravity waves
Sound waves
Radio waves
Gamma radiation

63
T4B05 How fast does a radio wave travel
through space?

At the speed of light
At the speed of sound
Its speed is inversely proportional to its
wavelength
Its speed increases as the frequency increases

64
T4B06 How does the wavelength of a radio wave
relate to its frequency?

The wavelength gets longer as the frequency
increases
The wavelength gets shorter as the frequency
increases
There is no relationship between wavelength and
frequency
The wavelength depends on the bandwidth of the
signal

65
T4B07 What is the formula for converting
frequency to wavelength in meters?

Wavelength in meters equals frequency in Hertz
multiplied by 300
Wavelength in meters equals frequency in Hertz
divided by 300
Wavelength in meters equals frequency in
megahertz divided by 300
Wavelength in meters equals 300 divided by
frequency in megahertz

66
T4B08 What are sound waves in the range
between 300 and 3000 Hertz called?

Test signals
Ultrasonic waves
Voice frequencies
Radio frequencies

67
T4B09 What property of a radio wave is often
used to identify the different bands
amateur radio operators use?

The physical length of the wave
The magnetic intensity of the wave
The time it takes for the wave to travel one mile
The voltage standing wave ratio of the wave

68
T4B10 What is the frequency range of the 2
meter band in the United States?

144 to 148 MHz
222 to 225 MHz
420 to 450 MHz
50 to 54 MHz

69
T4B11 What is the frequency range of the 6
meter band in the United States?

144 to 148 MHz
222 to 225 MHz
420 to 450 MHz
50 to 54 MHz

70
T4B12 What is the frequency range of the 70
centimeter band in the United States?

144 to 148 MHz
222 to 225 MHz
420 to 450 MHz
50 to 54 MHz

71
T4C01 What is used to convert radio signals
into sounds we can hear?

Transmitter
Receiver
Microphone
Antenna

72
T4C02 What is used to convert sounds from
our voice into radio signals?

Transmitter
Receiver
Speaker
Antenna

73
T4C03 What two devices are combined into one
unit in a transceiver?

Receiver, transmitter
Receiver, transformer
Receiver, transistor
Transmitter, deceiver

74
T4C04 What device is used to convert the
alternating current from a wall outlet into
low-voltage direct current?

Inverter
Compressor
Power Supply
Demodulator

75
T4C05 What device is used to increase the
output of a 10 watt radio to 100 watts?

Amplifier
Power supply
Antenna
Attenuator

76
T4C06 Which of the battery types listed below
offers the longest life when used with a
hand-held radio, assuming each battery is the
same physical size?

Lead-acid
Alkaline
Nickel-cadmium
Lithium-ion

77
T4C07 What is the nominal voltage per cell of
a fully charged nickel-cadmium battery?

1.0 volts
1.2 volts
1.5 volts
2.2 volts

78
T4C08 What battery type on this list is not
designed to be re-charged?

Nickel-cadmium
Carbon-zinc
Lead-acid
Lithium-ion

79
T4C09 What is required to keep rechargeable
batteries in good condition and ready for
emergencies?

They must be inspected for physical damage and
replaced if necessary
They should be stored in a cool and dry location
They must be given a maintenance recharge at
least every 6 months
All of these answers are correct

80
T4C10 What is the best way to get the most
amount of energy from a battery?

Draw current from the battery as rapidly as
possible
Draw current from the battery at the slowest rate
needed
Reverse the leads when the battery reaches the
1/2 charge level
Charge the battery as frequently as possible

81
T4D01 What formula is used to calculate
current in a circuit?

Current (I) equals voltage (E) multiplied by
resistance (R)
Current (I) equals voltage (E) divided by
resistance (R)
Current (I) equals voltage (E) added to
resistance (R)
Current (I) equals voltage (E) minus resistance
(R)

82
T4D02 What formula is used to calculate
voltage in a circuit?

Voltage (E) equals current (I) multiplied by
resistance (R)
Voltage (E) equals current (I) divided by
resistance (R)
Voltage (E) equals current (I) added to
resistance (R)
Voltage (E) equals current (I) minus resistance
(R)

83
T4D03 What formula is used to calculate
resistance in a circuit?

Resistance (R) equals voltage (E) multiplied by
current (I)
Resistance (R) equals voltage (E) divided by
current (I)
Resistance (R) equals voltage (E) added to
current (I)
Resistance (R) equals voltage (E) minus current
(I)

84
T4D04 What is the resistance of a circuit when
a current of 3 amperes flows through a
resistor connected to 90 volts?

3 ohms
30 ohms
93 ohms
270 ohms

85
T4D05 What is the resistance in a circuit
where the applied voltage is 12 volts and
the current flow is 1.5 amperes?

18 ohms
0.125 ohms
8 ohms
13.5 ohms

86
T4D06 What is the current flow in a circuit
with an applied voltage of 120 volts and a
resistance of 80 ohms?

9600 amperes
200 amperes
0.667 amperes
1.5 amperes

87
T4D07 What is the voltage across the resistor
if a current of 0.5 amperes flows through a
2 ohm resistor?

1 volt
0.25 volts
2.5 volts
1.5 volts

88
T4D08 What is the voltage across the resistor
if a current of 1 ampere flows through a 10
ohm resistor?

10 volts
1 volt
11 volts
9 volts

89
T4D09 What is the voltage across the resistor
if a current of 2 amperes flows through a
10 ohm resistor?

20 volts
0.2 volts
12 volts
8 volts

90
T4D10 What is the current flowing through a 100
ohm resistor connected across 200 volts?

20,000 amperes
0.5 amperes
2 amperes
100 amperes

91
T4D11 What is the current flowing through a 24
ohm resistor connected across 240 volts?

24,000 amperes
0.1 amperes
10 amperes
216 amperes

92
T4E01 What unit is used to describe
electrical power?

Ohm
Farad
Volt
Watt

93
T4E02 What is the formula used to calculate
electrical power?

Power (P) equals voltage (E) multiplied by
current (I)
Power (P) equals voltage (E) divided by current
(I)
Power (P) equals voltage (E) minus current (I)
Power (P) equals voltage (E) plus current (I)

94
T4E03 How much power is represented by a
voltage of 13.8 volts and a current of 10
amperes?

138 watts
0.7 watts
23.8 watts
3.8 watts

95
T4E04 How much power is being used in a
circuit when the voltage is 120 volts and
the current is 2.5 amperes?

1440 watts
300 watts
48 watts
30 watts

96
T4E05 How can you determine how many watts
are being drawn by your transceiver when you
are transmitting?

Measure the DC voltage and divide it by 60 Hz
Check the fuse in the power leads to see what
size it is
Look in the Radio Amateur's Handbook
Measure the DC voltage at the transceiver and
multiply by the current drawn when you transmit

97
T4E06 How many amperes are flowing in a
circuit when the applied voltage is 120V
and the load is 1200 watts?