CH.5 BLUE Flashcards
(77) CH.5
PAGE 5-03.B
Question:
Therefore, the ICT distribution designer should focus first on pathways and then on __________.
ICT DESIGNER=
PATHWAY FIRST & CABLING SECOND
(78) CH.5
PAGE 5-05.B
Question:
HORIZONTAL CABLING IS OFTEN _________ ACCESSIBLE THAN BACKBONE CABLING.
HORIZONTAL CABLING IS LESS ACCESSIBLE THAN BACKBONE CABLING
(78) CH.5
PAGE 5-05.C
Question:
Horizontal /work area=
Less accessible than backbone
(79) CH.5
PAGE 5-17.B
Question:
The following types of transmission media are allowed in horizontal cabling system, except for what?
HORIZONTAL CABLING DOES NOT ALLOW=
62 MICRON MULTIMODE OM1
(80) CH.5
PAGE 5-19.B
Question:
COPPER CABLE SLACK, TR TO WORK W/O PATCH CORDS=
DO NOT EXCEED 295’ MAX
(80) CH.5
PAGE 5-19.C
Question:
How much cable slack should be ITS designer allow for the fiber in the TR ?
EXTRA 10FEET
(80) CH.5
PAGE 5-19.F
Question:
How much slack should be provided for twisted-pair cable at the Work area?
WORK AREA T/P COPPER SLACK=
1 foot
(80) CH.5
PAGE 5-19.H
Question:
WORK AREA FIBER SLACK=
3.3 feet
(81) CH.5
PAGE 5-21.B
Question:
FIGURE 5.11 TEST QUESTION, WHATS IS THE PIN OUT OF THE IMAGE ON THE RIGHT?
_________ STARTS WITH ORANGE PAIR
TIA - 568B
(81) CH.5
PAGE 5-21.D
Question:
WHAT COLOR IS PIN 6 IN A TIA 568B PIN OUT?
TIA 568B PIN 6 =
GREEN
(82) CH.5
PAGE 5-22.B
Question:
IF IT IS DIFFICULT TO GET TO AN AREA IN THE FUTURE, WHAT SHOULD THE DESIGNER DO?
DIFFICULT ACCESS IN FUTURE
INSTALL ADDITIONAL OUTLET ( OR INSTALL 2 OUTLETS )
(83) CH.5
PAGE 5-23.B
Question:
TH3 WORK AREA TELECOMMUNICATIONS OUTLET SHOULD BE LOCATED WITHIN __________ FEET OF AN ELECTRICAL OUTLET.
TELECOM OUTLET =
WITH IN 3.3 FEET OF ELECTRICAL OULET
(84) CH.5
PAGE 5-27.B
Question:
EACH FURNITURE CLUSTER REQUIRES AT LEAST ________ MUTOA.
1 FURNITURE CLUSTER =
1 MUTOA PER CLUSTER
(84) CH.5
PAGE 5-27.D
Question:
A SINGLE MUTOA SHOULD BE LIMITED TO SERVING A MAXIMUM OF HOW MANY WORK AREAS?
MUTOA=
12 WORK AREAS
(84) CH.5
PAGE 5-27.F
Question:
What do you call the patch panel located at the end of the furniture section?
PATCH PANEL @ FURNITURE SECTION=
MUTOA
(84) CH.5
PAGE 5-27.H
Question:
A MUTOA SHOULD BE AT LEAST________ FEET AWAY FROM THE CONNECTED HEAD END PATCH PANEL.
MUTOA DISTANCE FR9M THE TR=
49 FEET MINIMUM
(84) CH.5
PAGE 5-27.J
Question:
“ A MUTOA CAN SERVE A MAXIMUM OF _________ WORK AREA”
MUTOA SERVES=
12 WORK AREAS
(84) CH.5
PAGE 5-27.I
Question:
AN ITS DESIGNER SHOULD PLAN THE MOUNTING OF A MUTOA _________?
MOUNT A MUTOA=
FULLY ACCESSIBLE & PERMANENT LOCATION
(84) CH.5
PAGE 5-27.N
Question:
EQUIPMENT CORDS SHOULD NOT EXCEED=
72 feet
(85) CH.5
PAGE 5-30.C
Question:
HOW MANY WORK AREAS CAN BE SERVED BY A SINGLE CONSOLIDATION POINT?
CONSOLIDATION POINT=
MAXIMUM 12 WORK AREAS
(85) CH.5
PAGE 5-30.F
Question:
HEAVY FURNITURE =
100 lbs or MORE
The ITS designer shouldn’t ensure that the CP is placed a minimum of _________ FEET FROM THE TELECOMMUNICATION ROOM.
CONSOLIDATION POINT FROM TR=
49 FROM THE TR
(85) CH.5
PAGE 5-30.L
Question:
CONSOLIDATION POINT=
TESTING MORE COMPLEX & DISADVANTAGE
(85) CH.5
PAGE 5-30.N
Question:
CONSOLIDATION POINT DISADVANTAGES
MORE COMPLEX TESTING THAN MUTOA
(86) CH.5
PAGE 5-56.B
Question:
WHAT IS THE POINT TO MULTIPOINT NETWORK ARCHITECTURE IN WHICH UN-POWERED OPTICAL SPLITTERS ARE USED?
PON =
POINT TO A MULTI-POINT & UNPOWERED NETWORK
(86) CH.5
PAGE 5-56.D
Question:
“ WHY SHOULD THE ITS DESIGNER A PON SOLUTION”
1.LESS CABLING
2. LESS SPACE
3. LESS POWER
(87) CH.5
PAGE 5-58.C
Question:
HOW MANY PORTS DOES A PASSIVE OPTICAL PIN HAVE?
PIN PORTS=
2 TO 64 FIBER PORTS
PASSIVE
NO POWER
(88) CH.5
PAGE 5-58.C.2
Question:
PON = 2 to 64 fiber ports
PON= 64 ports = 1 port serves 32 WA
(88) CH.5
PAGE 5-61.D
Question:
HW MANY USERS MIGHT THERE BE ON ONE PORT OF A PON ?
PON USER CAPACITY
32 USERS PER PORT
64 (PORTS) x 32 ( USERS) = 2048 WAS
(89) CH.5
PAGE 5-64.B
Question:
HOW SHALL A PON FIBER BE TESTED ?
BIDIRECTIONALLY & BOTH WAVELENGTHS
( 1310 NM and 1550 NM)
(90) CH.5
PAGE 5-68.B
Question:
THE ICT DISTRIBUTION DESIGNER SHOULD LOCATE TELECOMMUNICATIONS PATHWAYS AWAY FROM SOURCES OF EMI AND COORDINATE WITH _____________________?
WITH OWNER’S/STAKEHOLDERS
(90) CH.5
PAGE 5-68.D
Question:
EMI SOURCES & CONCERNS
TRANSFORMERS AND X-RAY MACHINES
(91) CH.5
PAGE 5-74.B
Question:
WHAT IS THE FILL FACTOR RATIO FOR A CONDUIT STRAIGHT RUN?
40% PERCENT OF CABLE
(93) CH.5
PAGE 5-81.B
Question:
ALL CONDUITS SHALL BE EQUIPPED WITH A PULL CORD RATED AT ___________?
Minimum of 200lbs
(94) CH.5
PAGE 5-83.B
Question:
IF YOU HAVE (5) 4” CONDUITS, WHAT SHOULD THE TOTAL AVAILABLE SPACE BE INSIDE OF THE PULL BOX?
47” WIDE x 60” WIDE PULL BOX
(95) CH.5
PAGE 5-8.C
Question:
WHAT COMPONENT LISTED BELOW DOES NOT BELONG IN A RAISED FLOOR SYSTEM?
LONGITUDINAL CROSS MEMBER
(96) CH.5
PAGE 5-88.B
Question:
FREE SPACE UNDER FLOOR TILE
2 inches
(96) CH.5
PAGE 5-88.B
Question:
FREE SPACE UNDER FLOOR TILE
2 inches
(97) CH.5
PAGE 5-90.A
Question:
J HOOKS SHOULD BE LOCATED A MAXIMUM OF HOW MANY FEET APART?
5 feet
(98) CH.5
PAGE 5-90.B
Question:
A 100 FOOT CABLE RUN WOUD REQUIRE HOW MANY J HOOKS?
100feet=(20) J Hooks ( 5 FEET APART)
(97) CH.5
PAGE 5-90.B
Question:
WHAT IS CONCENTRATED LOAD CAPACITY OF A RAISED FLOOR?
2000lbs
(99) CH.5
PAGE 5-103.B
Question:
WHAT ARE THE STANDARD SIZES FOR POWER UTILITY COLUMNS?
UTILITY COLUMN SIZE =
10,12,& 15 FEET
(100) CH.5
PAGE 5-105.B
Question:
WHAT ARE THE 6 DIFFERENT TYPES OF CABLE TRAYS?
LADDER=
TWO SIDES RAILS
(100) CH.5
PAGE 5-105.B.2
Question:
WHAT ARE THE 6 DIFFERENT TYPES OF CABLE TRAYS?
VENTILATED THROUGH
VENTILATED BOTTOM
(100) CH.5
PAGE 5-105.B.3
Question:
WHAT ARE THE 6 DIFFERENT TYPES OF CABLE TRAYS?
VENTILATED CHANNEL
CHANNEL
(100) CH.5
PAGE 5-105.B.4
Question:
WHAT ARE THE 6 DIFFERENT TYPES OF CABLE TRAYS?
SOILD BOTTOM=
SOLID BOTTOM
(100) CH.5
PAGE 5-105.B.5
Question:
WHAT ARE THE 6 DIFFERENT TYPES OF CABLE TRAYS?
SPINE=
SPINE
(100) CH.5
PAGE 5-105.6
Question:
WHAT ARE THE 6 DIFFERENT TYPES OF CABLE TRAYS?
BASKET TRAY=
WELDED MESH
(101) CH.5
PAGE 5-115.B
Question:
WHEN TELECOM CABLE RUNS PARALLEL TO ELECTRICAL PATHWAYS INSIDE OF FURNITURE, THE SEPARATION SHOULD BE A MINIMUM OF?
2 INCHES
