TDMM Chapter 2

Question 1

EMC

Answer 1

Electromagnetic Compatibility
Ability of a device, equipment or system to operate properly in its intended electromagnetic environment without introducing significant electromagnetic interference (EMI) into the environment

Question 2

EMI

Answer 2

Electromagnetic Interference
The transfer of electromagnetic energy from one device or system to another device or system operating in the same environment that causes interference with normal operation of the devices or systems

Question 3

Electromagnetic Emission

Answer 3

The phenomenon by which electromagnetic energy emanates from a source.

Question 4

Electromagnetic Immunity

Answer 4

The ability of a device, equipment or system to perform without degradation in the presence of an electromagnetic disturbance.

Question 5

EMR

Answer 5

Electromagnetic Radiation
Radiation composed of oscillating electrical and magnetic fields and propagated through a medium

Question 6

ESD

Answer 6

Electrostatic Discharge
The sudden flow of electricity between two electrically charged objects caused by contact

Question 7

Ground Loop

Answer 7

Two parallel paths that have identical conductive terminations to two separate grounding (earthing) references

Question 8

RFI

Answer 8

Radio Frequency Interference
The degradation of a desired signal at the receptor end caused by radio frequency disturbance within the radio frequency system.

Question 9

Two devices are using overlapping operational frequencies within the same EM environment. What is the likely affect on the potential for EMI in this environement?

Answer 9

The potential for EMI is likely to increase under these conditions

Question 10

Name four mechanisms that can create coupling between two circuits or systems

Answer 10

• Conductive coupling
• Inductive coupling
• Capacitive coupling
• Electromagnetic coupling

Question 11

What type of coupling may occur when a common ac branch circuit is shared between two devices?

Answer 11

Conductive Coupling

Question 12

What causes inductive coupling?

Answer 12

Magnetic fields

Question 13

What causes capacitive coupling?

Answer 13

Electric Fields

Question 14

Name three essential elements of any EMC problem

Answer 14

• Source of an EMI or electromagnetic energy transfer
• Susceptible device or system that cannot perform as designed because of EMI event
• Coupling path that promotes the disturbance

Question 15

Name 8 examples of EMR

Answer 15

• Gamma Rays
• X Rays
• UV light
• Visible light
• IR Radiation
• Radar
• Microwaves
• Radio Waves

Question 16

What is the speed of light?

Answer 16

300,00kms (186,300 mi/s) in a vacuum

Question 17

Name the two characteristics that are used to distinguish electromagnetic waves

Answer 17

• wavelength (expressed in meters)
• Frequency (expressed in hertz)

Question 18

How many frequency bands are recognized by the ITU?

Answer 18

12

Question 19

True or False
Visible light represents the largest portion of the electromagnetic spectrum

Answer 19

False
Visible light represents only a small portion

Question 20

Name the three primary paths through which conducted coupling may affect electronic devices

Answer 20

• Input signal lines
• Output signal lines
• Utility or premises electrical power distribution

Question 21

Name the four primary conditions that allow radiated interference to enter electronic devices

Answer 21

• Proximity to source
• Missing gasket/enclosure
• Missing bonding and grounding system
• Missing shielding

Question 22

True or False
Electrical codes do not generally provide for EMC

Answer 22

True

Question 23

What is an electromagnetic field?

Answer 23

An area of energy that surrounds electrical devices

Question 24

What type of charge creates an electric field?

Answer 24

Stationary

Question 25

Normally, it is not practical to control external sources of EMI. What methods should the ICT designer use to address this type of EMI instead?

Answer 25

Revert to methods that promote system immunity

Question 26

What is a reliable and effective technique for mitigating the effects of radio frequency interference on telephone sets?

Answer 26

Deploying shielded or screened structured cabling systems in concerned areas.

Question 27

Why is it difficult to determine a devices EMC?

Answer 27

Because its value is relative to the environment in which it will operate

Question 28

Name the two components of EMC

Answer 28

• Emission
• Immunity

Question 29

What units of measure are used to describe magnetic fields?

Answer 29

Amperes per meter

Question 30

What frequency spectrum is typically used for measuring conducted interefernce?

Answer 30

100 kHz to 30 MHz

Question 31

What frequency spectrum is typically used for measuring radiated interference?

Answer 31

30 MHz to 5 GHz

Question 32

How is immunity to radiated emissions determined?

Answer 32

By exposing the device being measured to a specified electromagnetic field and monitoring its performance

Question 33

Name four types of radiated interference measurements

Answer 33

• Anechoic chamber
• TEM cell
• Reverberating chamber
• GHz TEM cell

Question 34

Name three types of conducted interference measurements

Answer 34

• CM and DM interferences
• Conducted electromagnetic noise of power supply lines
• Conducted EMI from equipment

Question 35

What is the acceptance criteria for field intensity for telecommunications equipment and cabling?

Answer 35

3 V/m maximum

Question 36

What major parameters are likely to fail field testing on a trial link if elevated levels of EMI are present?

Answer 36

Crosstalk
(such as NEXT and ANEXT)

Question 37

What design factor could cause EMI on a telecommunications system?

Answer 37

Excessive lengths of unshielded cable between rooms of buildings

Question 38

Name four design factors that could cause EMI on a sites telephone distribution system?

Answer 38

• Unbalanced cabling
• Incorrect or missing primary protectors
• Incompatible secondary protectors
• Incorrect or missing grounds

Question 39

What is the aim of EMC?

Answer 39

To ensure that equipment items or systems will not interfere with or prevent each others operation through spurious emission and absorption of EMI

Question 40

What is the focus of EMC?

Answer 40

To control EMI

Question 41

True of False
The EMI problem is always a circuit?

Answer 41

True

Question 42

True or False
EMI is often easy to remedy once the root cause is identified

Answer 42

True

Question 43

Name three common sources of EMI problems

Answer 43

• Emission sources
• Propagation sources
• Receiving or receptor elements

Question 44

Name two natural sources of EMI

Answer 44

• Atmospheric electricity
• Cosmic radiation or geomagnetism disturbances

Question 45

Name six man made sources of EMI

Answer 45

• Electrical power
• Communications electronics
• Relay communications
• Tools and machines
• Ignition systems
• Industrial and consumer equipment or products (non motor)

Question 46

Name three methods used to suppress or prevent unwanted signals

Answer 46

• Shielding
• Filtering
• Bonding and grounding

Question 47

Name three types of ESD

Answer 47

• Discharge through a spark in the air
• Radiated effects of ESD
• Contact discharge

Question 48

How many levels of immunity are used to describe ESD?

Answer 48

Four

Question 49

What voltage level is associated with Level 1 immunity for contact discharge?

Answer 49

2 kV

Question 50

What voltage level is associated with Level 2 immunity for contact discharge?

Answer 50

4 Kv

Question 51

What voltage level is associated with Level 3 immunity for contact discharge?

Answer 51

6 kV

Question 52

What voltage level is associated with Level 4 immunity for contact discharge?

Answer 52

8 kV

Question 53

What voltage level is associated with Level 1 immunity for air discharge?

Answer 53

2 kV

Question 54

What voltage level is associated with Level 2 immunity for air discharge?

Answer 54

4 kV

Question 55

What voltage level is associated with Level 3 immunity for air discharge?

Answer 55

8 kV

Question 56

What voltage level is associated with Level 4 immunity for air discharge?

Answer 56

15 kV

Question 57

What is the electrostatic discharge susceptibility voltage range for vertical metal oxide semiconductors?

Answer 57

30 to 1800 V

Question 58

What is the electrostatic discharge susceptibility voltage range for operational amplifiers?

Answer 58

190 to 2500 V

Question 59

What is the electrostatic discharge susceptibility voltage range for resistors?

Answer 59

300 to 3000 V

Question 60

What can cause a telecommunications cable to store energy and then discharge it as ESD?

Answer 60

Mutual capacitance

Question 61

What is the relationship between the category of a balanced cable and its ability to store energy?

Answer 61

The higher the cable category, the lower its ability to store energy

Question 62

What is the mutual capacitance range for category 3 cable?

Answer 62

64 to 66 pF/m

Question 63

What is the mutual capacitance range for category 5e cable?

Answer 63

44 to 49 pF/m

Question 64

What is the mutual capacitance range for category 6 cable?

Answer 64

44 to 46 pF/m

Question 65

What is the mutual capacitance range for category 6A cable?

Answer 65

43 to 45 pF/m

Question 66

What is the mutual capacitance range for category 8 cable?

Answer 66

1.2 pF/m

Question 67

Name the two types of unwanted signals on a cable in an EMI event

Answer 67

• Common Mode (CM)
• Differential Mode (DM)

Question 68

Which type of unwanted signal involves a ground plane?

Answer 68

Common Mode (CM)

Question 69

When does a CM signal become evident?

Answer 69

Only when measured against a reference ground

Question 70

How do CM (Common Mode) unwanted signals directly affect equipment operation?

Answer 70

By entering the equipment and causing logical errors

Question 71

What is the primary way that DM (Differential Mode) noise affects equipment?

Answer 71

By corrupting transmitted signals on a balanced circuit

Question 72

What is the relationship between the transmission rate of cabling and interference?

Answer 72

The higher the transmission rate, the higher the effect of the intereference

Question 73

What term describes two parallel paths that have identical conductive terminations to two separate grounding (earthing) references?

Answer 73

Ground Loop

Question 74

True or False
The earth is always one of the parallel paths between the grounding references in a ground loop

Answer 74

False
The earth is often, but not always on of the paths

Question 75

What is the purpose of electromagnetic shielding?

Answer 75

To reduce or prevent coupling of undesired radiated electromagnetic energy into a system

Question 76

Name the two approaches to using cable shielding as an EMI mitigation technique

Answer 76

• Low frequency noise mitigation
• High frequency noise mitigation

Question 77

What absorbs the majority of EMI effects at lower frequencies?

Answer 77

Cable twists

Question 78

What part of the cable absorbs the majority of EMI effects at higher frequencies?

Answer 78

The cable shield

Question 79

How does passing through a medium affect the amplitude of an electromagnetic wave?

Answer 79

It decreases exponentially

Question 80

What parameter best describes the cable shielding response?

Answer 80

Shielding effectiveness

Question 81

What is transfer impedance?

Answer 81

A ratio of the voltage induced on the inside surface of the shield to the current flowing on its outside surface

Question 82

What type of connection is made to ground cable shields?

Answer 82

A 360 degree connection avoiding breaches in the conductor continuity

Question 83

What type of cable has been the traditional choice for buildings with high levels of ambient EMI?

Answer 83

Shielded cable

Question 84

What device may be used in branch circuits to limit the propagation of electrical surges and associated intereference?

Answer 84

Surge protectors

Question 85

How does cable category for balanced twisted pair cable relate to noise?

Answer 85

A higher category results in better noise rejection response

Question 86

What should be used to reduce EMI when signal lines are found close to switchgear?

Answer 86

Localized magnetic barriers

Question 87

Name five methods for reducing EMI from fluorescent lighting

Answer 87

• Shielding grid over lamp
• shielded cable between lamp and switch
• metal enclosed power switch
• filter between power switch and power line
• shield electrical cabling

Question 88

Name two means of reducing high levels of noise on power branch circuits

Answer 88

• Line conductors
• Surge protectors

Question 89

What is the minimum recommended separation distance between unshielded power lines and non metal telecommunications pathways?

Answer 89

24”

Question 90

What is the minimum recommended distance between an electric motor or transformer and telecommunications pathways?

Answer 90

48”

Question 91

What is the minimum recommended separation distance between metallic cabling and a fluorescent lamp?

Answer 91

5”

Question 92

True of False
An electric power line EMI filter is mandatory in all active equipment

Answer 92

True

Question 93

What is the primary function of an isolation transformer for data signals?

Answer 93

To interrupt the CM ground loop at the receiver or transmitter end

Question 94

Define mode conversion

Answer 94

Transfer of CM voltage to a secondary of the transformer as DM noise

Question 95

Where are isolation transformers commonly used?

Answer 95

In LAN and other digital communications applications

Question 96

What is the desirable minimum CMRR for high quality chokes?

Answer 96

40 dB

Question 97

Name two factors that determine the magnitude of electrical powerline influence

Answer 97

• Current that propagates over the power line
• Physical configuration of the line

Question 98

Name the two characteristics of telecommunications circuits that determine susceptibility

Answer 98

• Amount of presence of shielding
• Balance of the telecommunications circuit

Question 99

What is the recommended overall longitudinal balance for use at low frequencies?

Answer 99

60 dB or greater

Question 100

What is the recommended overall longitudinal balance for use at high frequencies?

Answer 100

30 to 40 dB or greater