CHALP
Product Overview
January 2009
Crouse-Hinds Airport Lighting Products
ISO
9001
Certified to ISO 9001
75 Years Airfield Ground
g
g Manufacturing
g
Lighting
Experience
•
• 20 Years Airfield Lighting
Control System Experience
• Products Approved to FAA
and ICAO Standards
2
Airfield Lighting Control System
DCCMS
Distributed Computer Control and
Monitoring System
3
DCCMS Overview
¾ Advanced
Ad anced Distributed
Distrib ted Structure
Str ct re - one mod
module
le per
Element:
– Easy installation
– Simple to maintain and troubleshoot
– High Reliability,
Reliability Short MTTR
¾ Diagnostic data by CCR or general element location
¾ No affect
ff
off a single element on entire system operation
¾ Built-in fail safe sub-system
4
DCCMS Overview
¾ Redundant communication network from the tower to
each element ((CCR,, Generator,, etc.))
¾ Built-in full FAA L-827 monitoring
¾ Foundation for Insulation Resistance Monitoring System
(IRMS) and Individual Lamp Control and Monitoring
System
¾ Object oriented system with user friendly data-entry,
based on airfield lighting elements such as:
CCR, R/W, T/W, Lighting System, Beacon etc.
¾ Distributed and powerful processing capacity
5
DCCMS – Local Area Network
Fiber optic and/or wireless
Redundant Ethernet Network
Lighting Vault
Fiber redundant
communication
network
t
k
Maintenance Center
Air Traffic
Control Tower
Lighting Vault
Optional wireless
communication
Apron
p
Centers
6
DCCMS – Local Area Network
Redundant FO Communication
Network (Ethernet / Fast Ethernet)
Control Tower
Maintenance
Apron Centers
Mobile
Maintenance
center
Sub-Station 1
Sub-Station 2
Wireless Communication
Network (Ethernet )
7
DCCMS Components
¾ IIndustrial
d t i l Computers
C
t
and
d Servers
S
¾ Networking Equipment
¾ Ethernet Fiber Optic,
Optic Wireless and Copper
¾ Monitoring and Configuration Tools
¾ Touch Screens
¾ Surface Acoustical Wave
¾ Various Sizes
¾ Fiber Optic Extender
¾ UPS
¾ True
Tr e On
On-Line
Line
¾ Battery Cubicles for Additional Run-Time
¾ Network Monitoring and Alerting
¾ Cabinets
¾ NEMA 12
8
DCCMS Components
¾ Digitrac
– Constant Current Regulator
Control and Monitoring
– General Element Control and
Monitoring (Beacon, Windcone,
Sequenced Flasher,
G
Generators,
ATS,
S etc.))
¾ Megatrac
– Series Circuit Insulation
Resistance Monitoring
¾ Logitrac
– Individual Lamp Control and
Monitoring
9
Digitrac
¾ Control
¾ Nine Relay (Latching) Outputs
¾ Full L-827 Monitoring
¾ Output Current
¾ Output Voltage
¾ Power consumption
¾ Number of burned out lamps per circuit
¾ Local/Remote Indication
¾ Loss of Input Power Indication
¾ Over Current Alarm
¾ Open
O
Circuit
Ci
it Alarm
Al
¾ Additional Monitoring
– 4 AC 4-20 mA Inputs
– 2 DC 4-20 mA inputs
– Sixteen Digital Inputs
¾ Redundant vault communication network based on industry standard (1.25
Mbaud)
10
Digitrac
¾ Power source options (120-240VAC)
¾ CCR internal control power
¾ Dedicated breaker
¾ Dedicated UPS in the vault computer cabinet
¾ Power consumption: 3 Watts
¾ Fail
Fail-Safe
Safe Settings
¾ Active Fail-Safe
¾ Elements switched on prior to failure remain in last state
¾ Elements switched off prior to failure energize at a predetermined intensity
¾ Passive Fail-Safe
¾ Elements switched on prior to failure remain in last state
¾ Elements switched off prior to failure remain switched off
11
Megatrac
¾ Insulation resistance measurement range:
¾ 20KOhm to 1GOhm
¾ Two operation modes:
¾ Operation when CCR is energized or de-energized
¾ Operation
p
only
y when the CCR is energized
g
¾ Two test modes:
¾ Automatic testing mode
¾ Manual testing mode
¾ Built-in
Built in Diagnostic Test
¾ Commands (ON/OFF) to activate/deactivate the Megatrac
from any maintenance terminal
12
Megatrac
¾ Programmable parameters from any maintenance
terminal
¾ Periodic time between the circuit measurement
¾ Charge time
¾ Warning limit
¾ Alarm limit
¾ LCD graphic
hi di
display
l
¾ Full system control through RS232 communication
¾ Internal fiber optic communication from ECB to the
HV unit
13
DCCMS Software Environment
¾ Operating
O
i S
System:
Wi d
Windows
XP P
Pro/Vista
/Vi
¾ Network Protocol:
TCP/IP
¾ Networks:
Ethernet
¾ Database:
Microsoft Access
¾ History Server:
Oracle
¾ Development Environment:
Microsoft Visual C++
¾ Graphic Tools:
ILOG Views
14
Software Features
¾
¾
¾
¾
¾
¾
Leading Edge Software Tools & Environment
Object Oriented Code For Airports
Data Entry Dedicated For Airports
Airport Oriented Graphic Editor
Powerful Troubleshooting Utilities
User Friendly Display Of All Airfield Lighting Systems
15
Software Capabilities
¾ Operator Terminal Configuration
¾ Triggers
¾Airfield
e d Movement
o e e t
¾Emergency Handover
¾Other Defined Inputs
¾Sign-On
¾Key Card Access
¾ Closed Area
¾ Drag and Drop
¾ Runway
¾ Individual Circuit
16
Software Capabilities
¾ Sequences
¾ All Lights for Operational Check
¾ Low Visibility
¾ Flow Control
¾ Pop-Ups
¾ Alerting
¾ Reminders
¾ Zoom Feature
17
Software Capabilities
¾ Alarm Customization
¾ User Definable based on Operational Needs
18
Software Capabilities
¾ Background Change for Better Viewing
¾ Manual Selection
¾ Visibility Change
¾ Master Clock
19
Routing Examples
¾ Manual Route Selection
20
Routing Example
¾ Automatic Routing based on Sensors or A
A-SMGCS
SMGCS
Interface
21
Installations Worldwide
Over 140 Installations Worldwide
22
Project Example
Abu Dhabi International Airport
23
Project Overview
Runways
2
CAT II, CATIIIB
ATCT Operator Stations
4
Substations
6
Constant Current Regulators
190
General Elements
SFL, Generator, Windcone,
Ob t
Obstruction
ti Lighting
Li hti
Individual Control and
Monitoring Devices
8500
R
Runway,
A
Approach,
h T
Taxiway,
i
IHP, Stop Bar
Sensors
Microwave Loop Detectors
Microwave,
External Interfaces
RVR, A-SMGCS (Surface
Radar)
Abu Dhabi International Airport
24
Project Block Diagram
Abu Dhabi International Airport
25
Project Block Diagram
Abu Dhabi International Airport
26
Project Block Diagram
Abu Dhabi International Airport
27
Project Example
Suvarnabhumi International Airport
28
Project Overview
Runways
2
CAT II
ATCT Operator Stations
4 plus 2 Apron Towers
Substations
4
Constant Current Regulators
100
General Elements
SFL, Generator, UPS, Low
Voltage Switch Gear, Flood
Lighting
Individual Control and
Monitoring Devices
3500
Runway Approach,
Runway,
Approach Taxiway,
Taxiway
Stop Bar
Sensors
Microwave
External Interfaces
RVR, AIMS (Airport
Information Management
g
System)
Suvarnabhumi International Airport
29
Project Block Diagram
Suvarnabhumi International Airport
30
Project Example
Guangzhou Baiyun Airport
31
Project Overview
Runways
2
CAT II
ATCT Operator Stations
4 plus
plus, 3 Stop Bar Panels
Substations
4
Constant Current Regulators
100, Automatic Back-up
100
Back up
Switchover for each 4 CCRs
Circuit Selector Switches
30 110 Poles
30,
General Elements
SFLs
Individual Control and
Monitoring Devices
3500
Runway, Approach, Taxiway,
Stop
p Bar
Sensors
Microwave
External Interfaces
RVR
Guangzhou Baiyun Airport
32
Project Block Diagram
Guangzhou Baiyun Airport
33
Project Block Diagram
Guangzhou Baiyun Airport
34
Project Example
Denver International Airport
35
Project Overview
Runways
6
CAT II
ATCT Operator Stations
4
Substations
3
Constant Current Regulators
100
Circuit Selector Switches
40, 130 Poles
General Elements
Beacon, Generator,
Switchgear
Individual Monitoring Devices
500
Stop Bar and Lead-On
Sensors
Loop Detectors
External Interfaces
None
Denver International Airport
36
Project Block Diagram
Denver International Airport
37
Project Block Diagram
Denver International Airport
38
Project Example
Memphis International Airport
39
Project Overview
Runways
4
3- CAT II 1- CATI
ATCT Operator Stations
2
Substations
4
Constant Current Regulators
100
Circuit Selector Switches
10, 30 Poles
General Elements
Generator, Beacon
Individual Control and
Monitoring Devices
1200
Stop Bar/RGL and Lead-On
Sensors
Microwave
External Interfaces
None
Memphis International Airport
40
Project Block Diagram
Memphis International Airport
41
Maintenance Screen Example
Constant Current Regulator Control and Monitoring
42
Maintenance Screen Example
Local Area Network Monitoring
43
Maintenance Report Example
Constant Current Regulator (Operational Hours/Intensity Level)
44
History
y
Server
Powerful. Stable. Long lasting.
45
History Server Comparison Chart
1 year retention
retention.
Unlimited (based on hard drive space).
No data optimization.
Automatic data optimization.
Workstation History is lost when
workstation fails.
No lost data.
MS Access: Inherent file
limitations.
Oracle: No limitations.
Built on Windows XP
Technology.
Built on Windows Server
Technology.
46
History Server Comparison Chart
retention.
1 year retention
Unlimited (based on hard drive space).
No data optimization.
Automatic data optimization.
Workstation History is lost when
workstation fails.
No lost data.
MS Access: Inherent file
limitations.
Oracle: No limitations.
Built on Windows XP
Technology.
Built on Windows Server
Technology.
47
History Server Comparison Chart
1 year retention
retention.
Unlimited (based on hard drive space).
No data optimization.
Automatic data optimization.
Workstation History is lost when
workstation fails.
No lost data.
MS Access: Inherent file
limitations.
Oracle: No limitations.
Built on Windows XP
Technology.
Built on Windows Server
Technology.
48
History Server Comparison Chart
1 year retention
retention.
Unlimited (based on hard drive space).
No data optimization.
Automatic data optimization.
Workstation History is lost when
workstation fails.
No lost data.
MS Access: Inherent file
limitations.
Oracle: No limitations.
Built on Windows XP
Technology.
Built on Windows Server
Technology.
49
History Server Comparison Chart
1 year retention
retention.
Unlimited (based on hard drive space).
No data optimization.
Automatic data optimization.
Workstation History is lost when
workstation fails.
No lost data.
MS Access: Inherent file
limitations.
Oracle: No limitations.
Built on Windows XP
Technology.
Built on Windows Server
Technology.
50
History Server Block Diagram
Workstation
Workstation
Workstation
History Server
W k t ti
Workstation
W k t ti
Workstation
51
History Server Block Diagram
Workstation
Workstation
Workstation
History Server
Workstation
Workstation
52
History Server Block Diagram
The Process
Workstation
Workstation
The History Server
accepts data from all
Workstation
workstations in the
system.
Data is optimized and
stored in real-time
real-time.
History Server
Workstation
Workstation
53
History Server Block Diagram
Workstation
Workstation
Workstation
History Server
Workstation
Workstation
54
History Server Block Diagram
Workstation
Workstation
Loss of
Communication
Local historical data
remains searchableWorkstation
in
the workstation which
has lost communication.
All other system
workstations continue to
normally
report normally.
History Server
Workstation
Workstation
55
History Server Block Diagram
Workstation
Workstation
Restoring
Communication
Once communication is
restored, the HistoryWorkstation
Server is automatically
resynchronized within
24 hours.
History Server
Workstation
Workstation
56
History Screen Example
57
History Screen Example
58
History Screen Example
59
Summary of Benefits
Workstation
¾ No limitations on database
size.
¾ Three (3) backup locations in
addition to workstations.
¾ Reduced network load.
¾ Stability of Oracle database.
¾ Self optimizing and
maintaining
maintaining.
Workstation
Workstation
History Server
Workstation
Workstation
60
Continuous Logitrac Family
¾
DSP-Driven. Flexible. Locally Configured.
61
Airfield Lighting Control System
Logitrac
Individual Lamp Control and Monitoring
Logitrac Device
Microwave Sensor
Logitrac Adaptor
Wireless Sensor Interface
62
Logitrac System
¾ System Main Components:
¾ Field addressable units: Logitrac Devices
¾ Sub station interface: Logitrac Adapters
¾ Aircraft/vehicle position sensors
¾ No changes to field infrastructure are required.
¾ No filters or bypasses are required
required.
63
Logitrac Device
¾ Control and Monitoring of:
¾ Stop
p bars
¾ Uni-directional lead-on/lead-out lights
¾ Bi-directional
Bi directional lead
lead-on/
on/ lead-out
lead out lights
¾ Inpavement Runway Guard Lights
¾ Elevated
El
t dR
Runway G
Guard
d Li
Lights
ht
¾ “Combo” unit: stop-bar (CAT II/III)/ RGL (CAT I)
¾ Runway / Taxiway Lights
¾ Signs/ Variable Signs
¾ Sensors
64
Logitrac Device Installation (Single Lamp)
L-823
L
823 Plug
L-830
Transformer
LD
Series Circuit
65
Logitrac Device Specifications
¾ Power Consumption:
10 W
¾ Connections:
Standard FAA L-823 Plugs
¾ IP rating:
IP 68, encapsulated in epoxy
¾ Operating Temperature:
-40°F to +185°F
¾ Lamp power range:
30 W to 500 W
g Current:
¾ Working
2.8 – 6.6A
¾ Dimensions:
5.8” x 4.5” x 3.2” (not including
leads))
¾ Weight:
7 lb
¾ Transformer requirements:
Any L-830
L 830 transformer w/ 6
6.6
6A
Secondary
66
Intersection Example
67
Logitrac System Detail
68
Logitrac System Detail
69
Service
¾
¾
¾
¾
¾
¾
¾
¾
In-House Technical Support
24/7 Emergency Technical Support
Site Surveys
Service Calls for Trouble Shooting and Repair
Project Management
Training (In-House
(In House or On
On-Site)
Site)
Maintenance Seminars
Maintenance Contracts
70