7788F
RF Subscriber Unit
Installation and Operation Manual
AES Corporation
285 Newbury Street
Peabody, MA 01960-1315 USA
Tel (978) 535-7310 Fax (978) 535-7313
www.aes-intellinet.com
Copyright 2016 All Rights Reserved
P/N 40-7788
Rev 6
August 30, 2016
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AES 7788 Series RF Subscriber Unit Installation and Operation Manual
AES Corporation 2 40-7788, Rev 6, August 30, 2016
NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING
JURISDICTION, AND OTHER INVOLVED PARTIES
This product incorporates field-programmable software. In order for the product to comply
with the requirements in the Standard for Control Units and Accessories for Fire Alarm
Systems, UL 864, certain programming features or options must be limited to specific values or
not used at all as indicated below.
Program Permitted in Possible functional
Group Feature or Option UL 864 (Y/N) settings Settings permitted in UL 864
Timing Parameters
AC Fail Report Delay Y 0-60 Min or Random R (Random) or 0-60 (Minutes)
Reporting Delay Y 0 80 Seconds 10 20 Seconds
Zone Programming
Fire/Trouble PKT Y Y or N Y
Zone Programming Y S, F or B If zone is in use F
If not in use B
Restoral Y X or R R
Set Modes
Enable Repeating Y Y or N Y
Suppress AC Fail N Y or N N
By Remote programming only
Acknowledge Delay * Y 60 330 Seconds Not greater than 60 Seconds
* Acknowledge delay is used in detecting the existence of a functional antenna and therefore affects antenna cut detection.
Note: UL and NFPA do not allow remote programming of an installed 7788F unless an
authorized person is present at the unit to temporarily enable this capability. Selecting
“Y” for Fire/Trouble PKT in Zone Programming function disables remote programming.
Entering one of the programming modes accessed with a directly attached programmer by
<Ctrl> <F1>, <Ctrl> <F2> or <Ctrl> <F3> enables remote programming for 10 minutes.
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TABLE OF CONTENTS
1 AES 7788F RF Subscriber Unit ........................................................................................... 5
1.1 Description ...................................................................................................................... 6
1.2 Features ........................................................................................................................... 6
1.3 Easy Installation .............................................................................................................. 6
1.4 Power Requirements ....................................................................................................... 6
1.4.1 Battery Calculations .................................................................................................... 7
1.5 RF Module (Transceiver) ................................................................................................ 7
1.6 Optional Accessories ...................................................................................................... 7
1.7 Safety Considerations ..................................................................................................... 7
1.8 Technical Specifications ................................................................................................. 9
1.9 UHF Antenna Options: ................................................................................................. 10
1.10 Coaxial Cable Options .................................................................................................. 10
1.11 Coaxial Cable and Antenna Installation Tips ............................................................... 11
2 Commercial Fire and Burglary Installation Notes .......................................................... 12
2.1 Power Requirements: 16.5 VAC, 40VA/45VA ............................................................ 13
2.2 Backup Battery requirement, Commercial Fire ............................................................ 13
2.3 UL 681 .......................................................................................................................... 13
2.4 UL 1610/365 ................................................................................................................. 13
2.5 7788F EOL Inputs / Zones ............................................................................................ 13
2.6 Local Trouble Output ................................................................................................... 13
3 Installation ........................................................................................................................... 14
3.1 Overview ....................................................................................................................... 14
3.2 Physical Installation ...................................................................................................... 14
3.3 Antenna Grounding and Surge Protector ...................................................................... 16
3.4 Wiring - General ........................................................................................................... 18
3.5 Wiring Antenna Cut / Trouble Output (J4) ................................................................ 19
3.6 Wiring - Zone Inputs ..................................................................................................... 22
3.7 Power Up ...................................................................................................................... 25
3.8 SELF-TEST / STATUS ERROR CODES ..................................................................... 26
3.9 Status (LED) Indicators ................................................................................................ 27
3.10 ALM LED Blink Pattern Chart ..................................................................................... 27
4 Programming....................................................................................................................... 28
4.1 Remote Programming Limitations (Enable/Disable).................................................... 28
4.2 Program ID # and System Cipher Code ........................................................................ 29
4.3 Timing Parameters ........................................................................................................ 29
4.4 Zone Programming ....................................................................................................... 31
4.5 Set Modes Enable Repeating and Suppress AC Fail ................................................. 33
4.6 Reset RAM.................................................................................................................... 33
4.7 Initializing the Subscriber Unit ..................................................................................... 34
4.8 Local Status Check ....................................................................................................... 35
4.9 Monitor Transmitter Functions ..................................................................................... 36
4.10 KEY TRANSMITTER ................................................................................................. 37
4.11 Display Zone Status ...................................................................................................... 38
4.12 Display Routing Table .................................................................................................. 38
4.13 Text Messages ............................................................................................................... 39
4.14 Handheld Programmer Quick Command Guide ........................................................ 40
4.15 Reconnect Cables after Programming .......................................................................... 40
4.16 Programming the Subscriber Unit from a PC ............................................................... 40
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5 Testing .................................................................................................................................. 41
5.1 Installation Site Checks................................................................................................. 41
5.2 Acknowledge delays ..................................................................................................... 41
6 Maintenance, Compliance, Warranty and Repair........................................................... 42
6.1 Troubleshooting ............................................................................................................ 42
6.2 Parts List ....................................................................................................................... 42
6.3 Contact Information ...................................................................................................... 42
6.4 Warranty and Service Procedure .................................................................................. 43
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1 AES 7788F RF Subscriber Unit
Enclosure Cover Label
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1.1 Description
The 7788F Subscriber Unit is an AES-IntelliNet RF Communicator, which is typically
used to link an alarm panel to an alarm monitoring central station. This series unit is UL
Listed and NFPA compliant for commercial fire alarm monitoring. This unit has 8 wired
inputs. All 8 inputs are of the end of line resistor (EOL) type. For those that need or
want the reversing voltage inputs, there is another model 7744F that has four inputs of
the EOL type and four reversing voltage inputs.
1.2 Features
This section is included for those customers familiar with other AES IntelliNet UL
Subscriber products. Listed below are the new features incorporated into the unit.
Fail Secure Relay on board for Acknowledge Delay / Antenna Cut / Low Battery /
Charger Fail output. Formerly was a Fail Safe open collector output and only for
Antenna cut / Acknowledge Delay.
Separate power no longer required for the Zone Input Module as required on the
7750-F-4X4 and 7750-F-8.
AC Failure Random Reporting Delay. AC failure/restore messages are generated
when they exist continuously for 100 minutes. The actual transmission of the
generated message is delayed a random number of minutes between 0 and 60, but
can be set to a value by the user. The delay is set at the time the event is
generated. This setting has no effect on the time of detection of the failure. That
is hardcoded at 100 minutes.
Transceiver power PTC is added. It is installed in series with the power line to
the transceiver disconnecting power if the transceiver draws too much current.
Remote programming using software at the central station is disabled when
Trouble Packets are enabled. This can temporarily be enabled using a directly
attached programmer in the Programmer Jack. This is to comply with UL/NFPA
requirements. Trouble Packets are enabled when “Y” is the response to the
question “Fire/Fire Zones” in Zone Programming <Ctrl> + F3.
1.3 Easy Installation
The 7788F unit is housed in a rugged lockable steel box for long lasting protection and
easy installation. The alarm panel’s alarm outputs are connected to the 7788F Unit. A
supplied AES-IntelliNet tamper resistant 2.5 dB flexible antenna can be secured to the
subscriber enclosure in the provided hole, or use a remotely installed antenna, purchased
separately. Once powered and properly configured, the 7788F RF Subscriber self-enrolls
into the AES-IntelliNet wireless network, receives signals from the alarm panel and
transmits them via wireless mesh radio to the AES-IntelliNet central receiver.
1.4 Power Requirements
The steady state DC current draw is only 150mA (210mA with optional accessories).
The peak current draw of 1.2A (1.3A with optional accessories) for RF power output
levels of 2W, is only for a very short transmit duration of less than 1/3 second.
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1.4.1 Battery Calculations
Description
Current
7788F
See 7788F Installation and
Operation Manual
7788F + 7794
See 7788F & 7794 Installation
and Operation Manuals
7788F + 7794 +7762 + 7740
See 7788F, 7794 & 7762
Installation and Operation
Manuals. For 7740 refer to
Sec. 3.5 Fig. 4A and Fig. 4B
in this manual.
7788F +7762 + 7740
See 7788F & 7762 Installation
and Operation Manuals. For
7740 refer to Sec. 3.5 Fig.
4A and Fig. 4B in this manual.
1.5 RF Module (Transceiver)
Each 7788F Unit includes an RF Module known as a transceiver along with a standard
tamper resistant 2.5 dB flexible omni-directional antenna. The standard antenna supplied
is for the frequency range of 450-480MHz. Contact AES for additional information on
available Models for use with other Non-UL frequencies and antennas.
See UHF Antenna Options in Section 1.9
1.6 Optional Accessories
7041 Hand Held Subscriber Programmer
7043E Programming Cable for PC or laptop to E Family subscribers with
Modular programming Jack and 7794 IntelliPro Fire
7794 AES IntelliPro Fire, Dialer Capture Module
7067 AES IntelliTap II, Dialer Capture Module
7770 AES FireTap Serial Data Module
7762 AES Hardware Supervisor
1.7 Safety Considerations
All equipment must be installed in accordance with National Electric Code,
NFPA 70, National Fire Code NFPA 72 and local building codes.
It is unlawful to operate this equipment in the USA without a valid FCC radio
station license. Other countries most likely require licensing through appropriate
authorities as well.
Be certain to properly ground the antenna, 7788F enclosure and any surge
protection devices to help dissipate surges away from the equipment and
personnel. The grounding of the antenna and surge protector is for your safety
and the safety of your equipment and should not be neglected.
If the antenna or cables connected to this equipment come in contact with
electrical power lines, DEATH or SERIOUS INJURY may result.
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Test this system periodically for proper operation. AES assumes no responsibility
for this equipment's failure to operate. AES' sole responsibility is to repair or
replace any AES device found to be defective during the warranty period.
Exposure to extreme cold below 0ºC or extreme hot above 50ºC could damage
any Gel battery used in the installation of this product. Extreme temperatures can
also cause unexpected operation of the electronics.
Exposure of the electronics to excessive water or moisture (such as a rain, shower,
bath, pool, sauna, etc.) could cause damage and unexpected operation.
Avoid dropping or other physical impact to the unit, which could damage the
enclosure or internal components.
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1.8 Technical Specifications
SIZE: 13.25”h X 8.5”w X 4.3”d (34 cm X 21.5 cm X 11 cm) excluding antenna
WEIGHT: 5.8 pounds (2.6 kilograms) Without Battery (Add 6 pounds with Battery)
TRANSFORMER SECONDARY POWER INPUT: 16.5VAC, 40V / 45VA class 2 (dry)
source only
VOLTAGE: 12VDC nominal
MAINS INPUT CURRENT: 150 mA standby; 1.2A transmit
MAINS INPUT CURRENT with optional accessories: 210 mA standby; 1.3 A transmit
(2 Watt Transceiver)
OPERATING TEMPERATURE RANGE: 0° to 49° C (32° to 120°F)
STORAGE TEMPERATURE RANGE: -10° to 60° C (14° to 140°F)
RELATIVE HUMIDITY RANGE: 0 to 93% RHC, Non Condensing
BACK-UP BATTERY: 12V, 7.5AH 12 AH (24 Hour standby), 1.2A Max.
(Min), lead acid gel type; required for all installations
BATTERY FUSE: Onboard self-resetting fuse. Not serviceable
ALARM SIGNAL INPUTS: 8 Supervised individually programmable Zones:
All 8 are EOL type with, Trouble & Restore
LOW BATTERY REPORTING: Below 11V. 22.5 Minute Test Cycle (approx..)
AC FAILURE REPORTING: AC Fail messages are queued for transmission to central
station after approximately 100 continuous minutes without AC power. Transmission to
central station is then delayed randomly between 0 to 60 minutes. Restore is similar with
Restore message queued for transmission after approximately 100 continuous minutes
with AC power restored. AC Fail/Restore messages will be sent between 100 and 160
minutes after the failure or restore occurs that remains for 100 minutes. See Section 4.3 -
Timing Parameters for additional information and programming options.
ANTENNA CUT / LOW BATTERY / CHARGER FAIL LOCAL REPORTING: Form
C Fail Secure Relay contact. Engaged for normal operation. Disengages on Reset,
Antenna Cut/Acknowledge Delay, total power loss condition, low battery or charger fail.
Contact rating 24VDC 1-Amp max, Not Supervised
RESET BUTTON: Located on the PCB.
TRANSCEIVER:
Standard UHF Frequency Ranges (410-440MHz, 440-470MHz, 470-512MHz)
TRANSCEIVER FUSE: 400 milliamp PTC, Not serviceable
STANDARD RF OUTPUT POWER: 2 Watts
Zones 1-8: dry contact supervised with 2.2K EOL resistor
GROUND FAULT: A ground fault as tested by UL, is when an isolated ground terminal
of a Supervised zone labeled “G” is less than 0.1 Ohm impedance to Earth Ground. A
zone 10 Trouble is transmitted for this fault. The CID code generated at alarm automation
for a Ground Fault is E370 C010.
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1.9 UHF Antenna Options:
(450-480 MHz; contact factory for other frequencies)
Antenna db
Construction
Usage
Length
P/N
2.5 db Case Top Flex Tamper Resistant
(1 & 2)
Vinyl Clad
Indoor
11 in
7214
3 db Stealth (Not shown below)
(3)
Vinyl Clad
Indoor
1.5 ft
7211
3 db Standard Gain
(4 & 5)
Steel Mast
Indoor
1.5 ft
7210-3-UM
5 db High Gain
(4 & 5)
Steel Mast
Indoor
3 ft
7210-5-UM
6 db Rugged High Gain
(4)
Fiberglass Mast
In/Outdoor
4.5 ft
7210-6-UC
7 db Rugged Higher Gain
(4)
Fiberglass Mast
In/Outdoor
6 ft
7210-7-US
9 db Central Station High Gain
(4)
Fiberglass Mast
In/Outdoor
8 ft
7210-9-UC
1. These alternate antennas may be used with the 7788F Fire Subscriber unit.
2. Included standard Tamper Resistant antenna, mounts on Alarm Unit’s enclosure.
Includes cable.
3. Mounts in attics, vents, walls, behind drapes, etc. Includes 10-foot cable.
4. Requires cable (See Section 1.10). Usually requires user supplied mounting hardware
such as a pole with mounting brackets/hardware.
5. Antenna is intended for outdoor use, supplied mount is intended for indoor use as coax
connection is exposed. To use outdoors, connection must be sealed with a suitable
product such as a self-fusing tape to protect against moisture.
The antenna must be installed in accordance with National Electric Code and local electric
code. A surge protector, AES P/N 7230 or (52-0054), must be installed in line with any type
of remotely installed antenna. Refer to remote antenna diagram in Section 3.3 for installation
details.
1.10 Coaxial Cable Options
CABLES w/CONNECTORS, BNC N, for all AES Subscriber Units, high
performance, low loss cables for all -UM, -UC
and -US antennas above.
● 10 Ft RG-58 Cable, P/N 7220-10-N
● 25 Ft RG-58 Cable, P/N 7220-25-N
BNC Plug/connector (male) crimp style for
RG-58 Coax, P/N 12-0102
100 Ft. RG-8 W/1 N male (on spool),
P/N 13-0345-100 - this coax is available for longer
runs, cut to length and installer terminated.
● Loose connectors required to complete RG-8
assembly, P/N 12-0101
● Crimp tool required for 12-0101, P/N 7244
● Cable Assembly; 18” RG-58 (N female, bulkhead ↔ BNC male) Used to connect
RG-8 with N male to Enclosure body, P/N 13-0346
Notes:
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1.11 Coaxial Cable and Antenna Installation Tips
Avoid using 25’ of coax length if a 10’ will be sufficient.
Never use more than 25’ of RG-58 cable in any antenna installation
Always use shortest length of coax possible. Longer than necessary coax lengths
translates into greater signal loss.
Always use the straightest most direct routing possible in any coax installation.
Unnecessary and tight bends adds to potential signal loss.
Use 50 Ohm impedance coax only. Do not use 75 Ohm coax for the connection of
remote antenna. RG-8, 9913, LMR-400, LMR-600 and RG-58 are among a list of
acceptable 50 Ohm coax.
RG-59 and RG-6 are 75 Ohm and NOT to be used.
Use the proper coaxial connectors and crimp tool for the coax selected. Incorrect or
poorly installed connectors can have a significant effect of the performance of the RF.
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2 Commercial Fire and Burglary Installation Notes
UL Burglar Installations Tamper Protection: A UL Listed tamper switch that protects
the cover against opening or removal is required on the 7788F installed in a burglar alarm
installation. If the 7788F is installed outside the protected area, a tamper device is
required to protect the enclosure against removal from the mounting surface.
Use a UL approved plunger type tamper switch, installed using holes drilled by the
installer through the side and rear of the enclosure as suggested in Diagram below. Refer
to diagram below, actual selected UL Listed tamper device and manufactures
documentation for installation instruction and required hole-pattern.
Wire tamper devices to a zone as outlined in the tamper device manufactures
documentation and section 3.
The tamper devices must be installed and wired to activate a zone on the subscriber to
generate an alarm signal at the central station.
In addition to installing tamper devices on the 7788F, a motion detector connected to the
alarm control panel is required to protect the 7788F against attack.
The 5 shaded holes shown in the diagram to the left
indicate suggested locations for holes needed to
install a typical UL Listed plunger type tamper
switch.
Actual dimensions are to be determined from the
actual switch and or switch installation instructions.
Although the typical switch has three mounting
holes available, two are sufficient to securely mount
the switch.
A typical plunger type switch requires a 3/8” hole
centered at the location where the plunger can
protrude unhindered through the rear of the
enclosure to make contact with the enclosure’s
mounted surface.
Several plunger type Tamper switches are shown
above. The switch on the left is the style selected
for the suggested hole patterns in the diagram to the
left. The switch style on the right with built in
mounting flange allows installation of a cover
tamper without the need to drill holes.
Suggested Tamper Switch Mounting Locations
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2.1 Power Requirements: 16.5 VAC, 40VA/45VA
For UL certificated burglar alarm installations, use the Listed AMSECO transformer
P/N XF1640, ELK P/N ELK-TRG1640 or TDC Power P/N DA-40-16.5 or MG
Electronics P/N MGT1640
For commercial fire alarm installations in the U.S., use the Listed AMSECO
transformer P/N XF1640, ELK P/N ELK-TRG1640 or TDC Power P/N DA-40-16.5
or MG Electronics P/N MGT1640
Do Not Connect To A Receptacle Controlled By A Switch
2.2 Backup Battery requirement, Commercial Fire
Central Station Fire Signaling (24hr): use a 12V, 7.5 AH battery when using 7744 by
itself. Per this manual, Section 1.4.1, the capacity may need to be as high as 12 Ah
when all modules are used.
Remote Station Fire Signaling (24hr): use a 12V, 7.5 AH battery when using 7744 by
itself. Per this manual, Section 1.4.1, the capacity may need to be as high as 12 Ah
when all modules are used.
2.3 UL 681
Commercial Burglar Alarm Installation (4hr) use 12V, 7.5 AH battery
Replace battery(s) every 3 years
2.4 UL 1610/365
For Burglar Alarm installations the 7788F unit shall be connected to a UL Listed
central control panel such that opening and closing signals are provided.
To provide confirmation of arming signal receipt at the central station, the DACT,
integral with the Listed Control Panel, shall be used for Open/Close Reports.
Set the Report Delay in the 7788F to 0 seconds.
2.5 7788F EOL Inputs / Zones
EOL Alarm Inputs must be programmed for Supervised or Fire.
For UL installations, the wire linking alarm panel must use electrically supervised
inputs (Program the subscriber unit for Supervised or Fire Supervised accordingly).
2.6 Local Trouble Output
For RF Type 6 Fire Alarm Systems, and Central
Station / Police Connect Burglar Alarm Systems -
connect the J4 output of the 7788 Subscriber Unit
circuit board to a non-reporting trouble zone on an
FACP or some other method to annunciate the trouble at the premise. Refer to pages
17 & 19 for J4’s location and additional information. Unsupervised. Contact rating
24 VDC, 1-Amp resistive maximum.
The wire connections between the control panel and J4 output must be supervised
against opens, shorts and grounds.
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3 Installation
This section contains information on the installation and wiring of the AES IntelliNet
7788F RF Subscriber Unit.
For Fire applications this product must be connected to a Fire panel that provides
system status changes on a system wide basis for Alarm, Trouble and Supervisory at
a minimum.
3.1 Overview
The AES 7788F combines the electronics of an AES Subscriber unit, battery, a radio
transceiver and any approved modules such as the 7794, 7770, 7762 or 7067 into its
enclosure. It is typically used to communicate alarm and status conditions of an
alarm panel to a centrally located alarm monitoring facility via radio transmissions. A
properly powered and configured AES 7788F will communicate with an AES Central
Receiver via a locally provided AES IntelliNet Network.
3.2 Physical Installation
Installation Guidelines Refer to Diagrams throughout this document for typical
component installation locations.
To comply with UL 365 Section 44, all wiring except the AC must use shielded
wires. At least one end of the shield must be grounded.
Choose an indoor climate controlled, secure, and dry location for the subscriber
unit’s installation.
Avoid extremes of heat, cold, humidity, dust. Refer to range listed in
specification section of this document.
Mount enclosure to a suitable, strong surface using appropriate fasteners for the
weight of the unit and the surface on which it is being installed.
Pre-cut “knockout” type holes are provided on the back and sides of the case for
wiring access. Knockouts are sized for standard ½ inch conduit connectors.
For burglar applications, the unit should be located away from the alarm panel
hidden if possible and within the protected area. This will aid in the successful
communication of the intrusion even if the alarm panel is compromised.
The supplied case top tamper resistant Flexible 2.5db antenna is mounted on the
Subscriber’s enclosure as shown in diagram 2 in this document.
A separately purchased remote alternate antenna may be used with the 7788F Fire
Subscriber Unit in UL installations. Contact AES for a selection of antennas
suitable for use with your Subscriber Unit. Refer to Section 1.9 “UHF Antenna
Options” for information on antennas available from AES.
The antenna must be installed in accordance with National Electric Code and
local electric code.
A protective surge suppressor must be installed in line with any type of remotely
installed antenna.
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Mount antenna as high as possible, on or in the structure, with attics and rooftop
locations preferred. Height need not be higher than is required to overcome
nearby obstructions to the signal path if any additional height would use a longer
coax length.
A remote antenna should be mounted in a location near the transceiver to
minimize inherent signal loss due to unnecessary cable length. Do not use longer
coax than is needed to reach the antenna.
Avoid installing the antenna in close proximity to other metal surfaces, as this
may severely impact the performance of the radio communications due to the
effects of signal reflections or detuning the antenna.
o Remember that pipes, conduit, wiring, ductwork and other metal are
commonly installed within walls and could affect performance.
o Take into account foil backed insulation and wallpaper.
o Metal objects may also be located in adjacent rooms or above ceilings.
o Metallic framing is in common use today. Antenna should not be
mounted directly over or in close proximity to metal studding.
o Metallic supports are in common use today. Antenna should not be
mounted in ceilings constructed of metal beams and supports that may
interfere with the RF signal.
o The antenna must be grounded properly to help reduce damage due to
surges produced by lightning. Grounding must be done in accordance
with local building codes as well as those in accordance with any other
authority having jurisdiction.
o When needed, use higher gain antenna with rated cable and connectors.
Mount antenna as high as possible - attics that meet the temperature and
humidity range specification can help to improve performance.
(See “UHF Antenna Optionslisted in Section 1.9 for available and approved
options.)
Antenna must be mounted in a vertical orientation.
Avoid tightly coiled or bunched coax as this could also affect RF performance.
Use Coax length that best fits the installation.
NOTE: During installation, the subscriber unit attempts to enroll itself into an
available AES-IntelliNet network and if successful generates signals at the central
station. Central station operators must be forewarned to avoid a false and nuisance
alarms.
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3.3 Antenna Grounding and Surge Protector
Below is a diagram illustrating grounding and surge protector for the 7788F with a
remote antenna installation.
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Illustration Below Shows the Enclosure Assembly
Diagram 2 7788F Enclosure Assembly
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12VDC 250 mA max, Unsupervised
Earth Ground Green Nut
Use a ring lug connector
and 18 gauge (min) wire to
connect to a suitable earth
ground, such as a
metal cold water
pipe.
3.4 Wiring - General
Diagram below shows details of the 7788F board with some typical wiring examples.
Diagram 3 User Connections
Terminals on J2 are not sutible for installation of multiple wires. Use a Wire Nut and Pigtail to connect
multiple wires to a single terminal as shown in wiring diagram example above on terminal J2 position “C”.
See additional information on next page
All wiring except the AC must use shielded wires with at least one end of the shield grounded.
Transformer Enclosure
AES 1640-ENCL
With Transformer
Power In: 16.5VAC, 40VA,/45VA
Class 2 (dry) source only.
Use AES p/n 1640, or
Amseco P/N XF1640 or ELK P/N ELK-TRG1640
or TDC Power P/N DA-40-16.5 or MG Electronics P/N
MGT1640
Status Indicators
See Section 3.8
Transformer
Wiring must
be in Conduit
For separation of
circuits, battery
wires are
covered with
Teflon tubing
J4 Antenna Cut / Trouble
Relay output
24 VDC 1 Amp Resistive
Unsupervised
For Wiring Diagram of 7794 IntelliPro Fire
See: 40-7794 -7794 Installation and Operation Manual
For wiring diagram of 7067 IntelliTap See:
40-7067 - AES 7067 IntelliTap-II Manual
For Wiring Diagram of 7770 FireTap See:
40-7770 - 7770 Installation and Operation Manual
For Wiring Diagram of 7762 See 40-7762 7762 Installation
and Operation Manual
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J1 RS-232 Port for Programmer and External Module connection. Plug
programmer’s cable into this jack to perform programming functions.
Programmer is powered by the power supply of the Subscriber. The AES
IntelliTap, FireTap or other supported accessory modules are connected and
powered by this jack. Any attached module must be disconnected to connect
the programmer and the programmer must be disconnected to use a module. 12
VDC 250 mA maximum, Unsupervised
J2 Zone wiring to this terminal block. Zone wiring examples are in
Section 3.4. Terminals are not suitable for multiple wires. Use wire Nut and
pigtail to connect more than one wire to a single terminal labeled G. Supervised
J4 (Trbl) Antenna Cut / Trouble output Local. This is for local reporting
or annunciating of antenna cut, communication troubles, low battery or charger
fault. See Section 3.5 for details. Unsupervised. 24 VDC, 1-Ampere resistive
maximum.
J5 Battery Input. Attach 12 VDC battery to the Red and Black battery
wires carefully observing polarity. An onboard self-resetting fuse protects
Battery wiring. For separation of circuits, battery wires are covered with Teflon
tubing. Supervised, Max current 1 Amp
J6 Power Input. Connect approved VAC power to this terminal block.
Refer to Section 4.3 for information on detection and reporting delays.
Supervised.
Earth Ground. Earth Ground and Battery minus (-) are not separated
connections in the AES IntelliNet 7788F Subscriber. Zone Input terminals
including the “G Terminals on J2 Zone input block are isolated from Earth
Ground.
Using 18 gauge wire minimum (10 Ga. Min suggested), attach a suitable Earth
Ground to the #6 threaded standoff identified with a green lock-nut on the
inside of the enclosure. A superior method for connecting Earth Ground to the
Subscriber is to bond directly to the bare sheet metal of the enclosure.
Suitable Earth Grounds include building steel, buried metallic cold water pipe,
driven grounding rod and other grounding systems. Not suitable is the
electrical ground from the electrical panel.
3.5 Wiring Antenna Cut / Trouble Output (J4)
Antenna Cut / Ack Delay / Low Battery / Charger Fail Output
J4 is the output connector for the Form C Fail Secure Antenna Cut / Acknowledge
Delay Relay / Low Battery / Charger Fail located on the 7788F circuit board. The
7788F will engage this relay for normal operation. It will be disengaged for one or
more of the following reasons: 1) Reset, (remote or local) 2) non-powered
condition, 3) Acknowledge Delay which will occur after an antenna cut or loss of
communication with the network. An Acknowledge delay occurs when a Packet
Acknowledge is not received for a transmitted Data Packet within the programmed
Acknowledge Delay time. (Default Ack Delay Time is 60 seconds). 4) Low Battery
or Charger Fail. Must be attached to an FACP or a local annunciation device.
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Diagram 4 J4
Antenna Cut / Trouble Relay
If the Subscriber does not hear another transmission from any other unit on the
network for more than 1-minute, (as might be the case if the antenna was cut), the
Subscriber begins sending a test message to another unit ID
from its internal routing table. If a Packet Acknowledge is not
received for that test message within the programmed
acknowledgment delay period (default is 1 minute or 60
seconds), a fault condition exists. This fault condition is
annunciated by deactivating relay K1. The relay can be used to
operate a digital dialer, sounder or local annunciation
of the condition. The contacts of the relay are
available at J4.
Max load is 1 Amp at 24 Volts DC, Unsupervised
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3.5 Wiring Antenna Cut / Trouble Output (J4) (Continued)
Trouble Annunciator
The AES 7740 Local Annunciator is the Space Age Electronics, Inc. Infinity Series Model IAMAUDK
or IAMAUDR annunciator. This annunciator may be used to locally indicate Subscriber trouble
condition using Trouble Output J4.
Connect the Model IAMAUDK/IAMAUDR annunciator as shown in Diagram 4A below. Refer to the
IAMAUDK/IAMAUDR Installation Instructions P/N LT10452 for details on how to install the product
within the constraints of its Listing. The IAMAUDK/IAMAUDR Input power (terminals +, -) 21 30
Vdc, 65mA max. The input power must be sourced from a Listed UL 864 FACP with a compatible
power output circuit or UL1481 Power Supply Listed for fire protection.
The End of Line Supervision Relay must be Listed for UL 864 and input power rated for the
application. The FACP must be Listed for UL 864 and input zone programmed for trouble with the
correct End of Line resistance per its Listing.
The IAMAUDK is shown for illustrative purposes.
Diagram 4A IAMAUDK Annunciator Wiring To J4 Antenna Cut / Trouble Relay
Diagram 4B 7788F Powering IAMAUD Annunciator Using 7762 Hardware Supervisor
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3.6 Wiring - Zone Inputs
Following is an overview of the zone programming options. Use this to help
determine the wiring option that best suits your requirements,
Refer to illustrations on previous pages for location of Zone terminals.
Zone inputs may be programmed for use with several types of outputs in
alarm panels. Available options in the 7788F are, Supervised E.O.L. and Fire
Supervised E.O.L. and either with or without Restorals. Fire Supervised
refers to how the zone input behaves with an EOL device (similar to a typical
fire circuit loop) and not specifically to it being used to report a fire alarm
condition.
Unused zones should be programmed as bypassed.
Unused zones should NOT have EOL resistors installed.
The 7788F is intended for use in UL installations. The zone input wiring and
programming is limited to appropriate configurations for that purpose.
Zone
Programming
Supervised
Fire
Bypasses
S
F
B
Input Electrical State / Condition
Zone Status
E.O.L Resistor 2.2K
N
N
B
Open
A
T
B
Shorted / Closed
A
A
B
B=Bypassed/Changes Ignored; N=Normal; A=Alarm; T=Trouble**
See Section 4.4 for Zone Programming Instructions.
B = Bypassed - Zone Electrical State or condition is ignored
S = Supervised - EOL Resistor; 2.2K Ohm = Normal / Open = Alarm / Short = Alarm
F = Fire supervised - EOL Resistor; 2.2K Ohm = Normal / Open = Trouble** / Short = Alarm
** NOTES:
~ Reporting of “Trouble” messages to AES Receivers other than the 7705i, 7703 and
7701 requires firmware version 1.70 or later.
See Central Receiver Compatibility notes below.
Zone Reporting Chart
Notes on Central Receiver Compatibility
This Subscriber Unit is fully compatible with AES MultiNet Receivers, which are
fully compatible with Trouble Packets. Trouble packets are also compatible with
7000 Series Central Receiver Versions 1.70 and up. Contact AES if your receiver is
pre-1.70 for upgrade options. When “Fire” Zone programming is enabled, the unit
generates a specific packet type for reporting “Trouble”. Data within this packet type
can only be received on version 1.70 and newer receivers. Generally, any 7000
Series system shipped after 1997 would have a firmware version greater than 1.70.
The 7705i MultiNet Receiver is fully compatible with Trouble Packets.
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Notes on E.O.L. Resistance
Maximum resistance of E.O.L. input including wire and EOL resistor is 2400 Ohms.
Thus, when using the 2.2K-Ohm resister supplied, wire resistance must not exceed
200 Ohms.
Wiring Zone Inputs 1 thru 8 for EOL Operation (Supervised)
Zones 1 through 8 are wired for EOL operation by using a 2.2 K Ohm resistance in
the wiring circuit to the zone for normal condition. Short the resistor to cause an
alarm condition on zones programmed for “F”. Open the circuit to cause a trouble
condition. Either short the resistor or open the circuit to cause an alarm condition on
zones programmed for “S”. Wiring example with suggested programming follows:
The primary use of S programming simply disables the reporting of a Trouble
message on an open circuit. S or Supervised is not related to Zone usage such as to
report a Supervisory event.
The connections illustrated here are the minimum required for a UL Listed Fire
installation.
Note: J4 Trouble output: This output is required for local annunciation of a trouble
condition that exists on the 7788F including communication failure. The FACP
should not activate its own Trouble Relay upon this activation as that may add to the
RF traffic problem being reported by the J4 activation in the first place. The FACP
could use an alternate method of communication to report the fault, if one exists. One
alternate method is to activate some other local annunciator.
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Wiring Zone Inputs 1 thru 8 to Voltage outputs (Supervised)
(NOT APPROVED FOR USE IN UL or FIRE ALARM INSTALLATIONS)
It may be possible with some panels to wire Zones 1 through 8 can such that they are
controlled by electronic outputs. These include open collector and emitter follower
types as well as other voltage outputs.
Wiring examples:
Wiring Open Collector and Positive Voltage Trigger Outputs
The wiring example illustrates several possible wiring models. Those illustrated
assume that the load provided by the AP output does not change or affect the standard
2.2K resistance used as the EOL. The value of the EOL resistor may have to be
adjusted to compensate for any load the panel output adds.
Select Resistor to provide a 2200 Ohm load on the input of the 7788F keeping in mind
that circuitry in the alarm panel may have to be considered.
For more details, see the Dealer Support website at www.aes-intellinet.com
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3.7 Power Up
Note: When a unit is powered up, it immediately attempts to enroll itself on an
available IntelliNet network, generating signals to the central station. Central Station
operators must be forewarned of this activity to minimize the chance of false alarms.
To avoid possibly unknown signals from a unit that its programming is not positively
known, disconnect the DB-9 connector from the transceiver before powering the unit.
This is a highly recommended procedure to adopt in all cases until programming is
complete and confirmed. Be aware that the unit may have been installed at another
installation still having that ID for which you would not want alarm signals sent
causing a false report and dispatch to the other site.
If using a programmer, connect it to J1/Programmer jack on the 7788F board. (See
Diagram 3) With the 16.5V transformer de-energized or unplugged, connect the
terminals of the 12VDC battery to the Red Positive (+) and Black Negative (-) battery
leads from the BAT section on the 7788F board. The unit will energize.
Plug in or energize the transformer. Be certain that the power supply’s power source
is connected to a dedicated branch circuit. After AC power is energized, push the
Reset button on the 7788F for a fresh restart of the program. The controller runs a
“self test”.
After a few seconds, a message will appear on the handheld programmer:
SELFTEST-PASS (or FAIL ###)
SUB [rev#] 7788F
ID#: [4 digit ID number] (C)YYYY AES
If the message reads SELFTEST - PASS, you may proceed with programming the
unit. Note that the current ID# for this unit is displayed, as well as the firmware
version (rev#) and copyright date (YYYY). If the message reads SELFTEST - FAIL
[Error Code], retry the procedure by pushing the controller RESET button. If the Fail
message persists, refer to Status Error Codes listed on the following page, for
explanation and resolution.
Note: 001 = low battery. 100 = AC fail. 101 = AC fail with low battery. If the
message reads SELFTEST FAIL 001, you may proceed with programming the unit
if the reported condition is expected and you know or feel that the battery has
sufficient capacity to complete programming.
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3.8 SELF-TEST / STATUS ERROR CODES
An [Error Code] is displayed on the screen of the programmer when the unit fails
the self-test.
Push the reset switch to see if the problem clears.
If not, check these procedures.
Error
Code
Description
Procedure
001
Battery power is low
Check battery; Push RESET button.
002
RAM Checksum failure
Push RESET button.
See Note 1 below.
003
Problems 01 and 02 above
004,
006
EEPROM Failure
Push RESET button.
See Note 1 below.
008
Analog Digital Converter /
ADC Failure
Same as 004 / 006 failure, see above
080
Loopback Test Failure
Push RESET button, unit will likely
pass self-test. See Note 1 below.
100
AC Not Present
Check AC power input, transformer
200
Battery Charge Fail
Unit may need servicing
300
Problems 100 and 200
Unit powered up by battery alone.
If true, you may continue.
400
Ground fault
Ground Fault condition exists on a
G terminal of the Zone input
section.
Other
Multiple errors are added
For example a Fail message of 084
indicates Loopback Failure and
EEPROM fail (080+004). This
example and other Messages may
indicate that the unit requires AES
authorized servicing. See Note 1
AC Fail with a low battery would
report 101.
Note 1: If unit passes, it must now be reprogrammed (see Section 4).
If unit repeatedly fails Self Test with a message that is not related to
AC fail or low battery, service may be required.
Try performing a RAM RESET <Ctrl>+<F5> then <Y> then <Enter>
This procedure may clear some errors.
If you are utilizing the assistance of AES Support, please report the error code to the
AES service staff.
As a general rule, if the Self-Test fail is not a low battery, AC, battery charger or
ground fault; then verify that any IC’s installed in sockets are properly seated. Try
performing a RAM Reset. If the fault is still present, the Subscriber will need to be
returned to AES for service.
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3.9 Status (LED) Indicators
There are 4 LED indicators on the main circuit board of the 7788F.
The function of each is described below.
STATUS INDICATORS: LED's are located near the top edge of circuit board next to
J1/Programmer connector and the Reset button.
LED
Color
Function
ALM
Red
Status / troubleshooting indicator, “blink” See chart below
WA
Yellow
Steady On = Waiting for acknowledgment of last transmission
Steady Blinking = Not on Network; Off = Normal
TX
Yellow
Illuminated indicates radio transmit
RX
Green
Illuminated indicates radio transceiver receiving RF signal.
Steady on for 20 seconds or more indicates RF interference.
(Includes any radio activity on this frequency strong enough to
break squelch)
Diagram 5 LED Indicators
3.10 ALM LED Blink Pattern Chart
The chart below shows the various blink patterns utilized by the ALM LED, and what
status conditions the blink pattern indicates.
Blink Pattern
| 1sec |
Meaning
Steady blink - system OK
●● ●● ●●
Short-short blink - low battery
Short-long blink - an input zone is in alarm or trouble
●● ●● ●●
Short-short-long blink, low battery & zone in alarm/trouble
▬▬
Steady / no blink - Self-test failure (excluding low battery)
Symbols as follows: "" = short blink, " " = long blink
Period between patterns is about 1 second with chart showing
pattern repeated 3 times.
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4 Programming
Programming is accomplished by attaching a compatible programmer to the
J1/Programmer connector of the main circuit board. The following are programming
instructions using the AES 7041 Hand Held Programmer. Unless noted, software at
the AES central receiver can also be used to program some of the functions listed in
this section, if remote programming has not been disabled as described in Section 4.1
below. Refer to AES software documentation for remote programming instructions.
A conversion chart for using a PC terminal program such as Hyper Terminal, as a
programmer can be found later in this manual. Previously programmed information
is stored in non-volatile memory, so the settings are not lost during a power down or
power failure.
4.1 Remote Programming Limitations (Enable/Disable)
Note: NFPA 72 does not allow remote programming of an installed 7788F unless
an authorized person is present at the unit to temporarily enable this capability.
Throughout AES documentation remote programming of AES Subscribers using
software at the central station is mentioned. Remote programming of the 7788F is
automatically disabled when the option to send Trouble Packets is selected in Zone
Programming accessed by <Ctrl> + <F3> on the hand held programmer. UL and
Fire Alarm installations require Trouble Packets and “F” zone programming.
Trouble Packets are enabled when you select “Y” for the “Fire Trouble Packets”
question in Zone programming. Fire Trouble Packets are also, automatically enabled
if Remote Programming changes any zone to “F”.
See 4.4 Zone Programming.
Once remote programming is disabled as described above, the 7788F can only be
programmed using the J1/Programmer Jack. Remote programming can be
temporarily enabled for a 10 minute window after accessing the programming
functions using <Ctrl>+<F1>, <Ctrl>+<F2> or <Ctrl>+<F3> via a programmer
directly attached to the J1/Programmer Jack. Note that the 10-minute access window
begins after completing the accessed function or when it times out in 65 seconds.
Remote programming is not possible when any programming function is active.
To Enable Remote Programming: (Not for Fire Alarm Service type inputs)
Selecting “N” for the “Fire Trouble Packets” question in Zone programming
will enable remote programming.
A RAM reset, which can only be performed with a directly attached
programmer, will configure all zones to “S” programming, with no Restore
messages sent, and “N” selected for “Fire Trouble Packets” question leaving
remote programming enabled.
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4.2 Program ID # and System Cipher Code
HandHeld Programmer: <Ctrl> + <F1> PC Terminal: <f>
This function programs the unit ID# and the system Cipher code which can only be
changed using a directly attached programmer to the J1 Modular Programmer jack.
Remote programming of these parameters is never possible.
NOTE: Entering new data overwrites (erases) any previously stored ID number and
Cipher Code. Pushing the <ENTER> key without entering other new data preserves
the previously stored information. The programmer should be connected and the
power should be on.
To start, press programmer keys <CTRL>+<F1>.
The following message appears:
SETUP UNIT-OLD: NEW (Existing stored "old" data.)
ENTER ID#-1234:.... (New data shown here.)
To keep previously stored ID#, simply push <ENTER>. To change the ID, enter the
4 digit identification number for this unit using any of the 16 hex numerals (0-9, A-
F), and then press <ENTER>. The ID must be unique; different from all other
ID’s in your system. After successfully entering the ID, the following message
appears:
CPHR CODE-XXXX:.... (Existing data is not shown.)
Enter the 4-digit cipher as assigned by the system administrator, and then press
<ENTER>. The code must match that of the central station receiver or IP-Link it is
expected to communicate through. If the wrong code is used, the unit cannot log on
and will not communicate. After entering the cipher code, or pressing <ENTER>
alone the following message appears:
OK
If the programming in this function is not completed within 65 seconds the function
will time-out. The Programmer will beep and the following message will be
displayed:
TIMEOUT
4.3 Timing Parameters
HandHeld Programmer: <Ctrl> + <F2> PC Terminal: <g>
This programming function is used to set the various timing parameters of the 7788F.
The factory defaults are set to 24 Hour Check-In, 10 second reporting Delay and
Random (RM) AC Fail reporting delay. If these are appropriate you can skip to the
next section.
Use shorter check-in times for highest security applications only.
00 hours, 00 minutes is an illegal entry and will not be accepted.
Set Check-In as required for UL Listed installation. Configure automation
software accordingly, to annunciate a failure to receive a Check-In message.
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The Reporting Delay sets the rate at which a subscriber’s own signals are
transmitted. The default value and recommended setting is 10 seconds; transmissions
are sent at least 10 seconds apart (this helps to meter traffic on the system). The
range is 0 (no delay, not recommended) to 330 seconds.
Note: After the reporting delay has expired, a new event will not have any delay
and the attempt to send a new message will begin immediately after activation.
For all Commercial Fire Alarm, UL Burglar Alarm, and Canadian Burglar
Alarm installations, the reporting Interval must not exceed 20 seconds.
AC Reporting Delay sets the delay in minutes that a subscriber waits before AC Fail
or AC Restore messages are actually transmitted after they are generated. This
feature helps network traffic congestion in the event of an area wide power outage, by
dispersing the AC Fail/ Restore messages over a period of 1 hour rather than all
Subscribers attempting to transmit at the same time. If AC reporting is not
suppressed, this feature delays the reporting of and AC Fail message for a random or
fixed delay. AC suppression is not approved for use in a UL installation.
The combined AC Fail Detect time of 100 minutes, plus the random AC Report
Delay between 0 & 60 minutes, does not exceed 160 minutes, which is within the
UL specification of 3 hour (180 minutes) for reporting AC Failures.
A loss of AC must exist for approximately 100 minutes in order to be detected as a
fail. The AC must be restored for 100 minutes to be detected as a restore. Once
either is detected a message is created to send to the central station. Then an AC
Reporting Delay is selected based on this parameter and the setting of AC Fail
Suppression mentioned later in Section 4.5 - Set Modes. The default value is RM,
which selects a random delay between 0 and 60 minutes.
The available options are: RM for random or you can enter a fixed delay in minutes.
0 = no delay and results in operation similar to earlier versions of AES AC Reporting.
The reporting of AC can be completely suppressed using a programming option in
Set Modes (See Section 4.5)
To Start, press programmer keys <CTRL>+<F2> or on a PC terminal press <g>
(hold down the Control and the F2 keys at the same time). The following message
appears:
CHKIN TIME--OLD:NEW
ENTER HRS----HH:.. [00-24] (HH = existing data)
Enter a number of hours between 1 and 24 (default = 24) and press <ENTER>.
ENTER MINS---MM:.. [00-60] (MM = existing data)
Enter the number of minutes between 0 and 60, then press <ENTER>.
AC RPT TIME-OLD:NEW [RM] Random or [00-60] [Minutes]
ENTER MINS---RM:..
(Report Delay, RM = existing programmed data)
Enter a number of minutes to delay AC Fail/Restore transmissions; the range is 0 to
60 or RM; the default is RM for Random.
Then press <ENTER>.
NTR RPT DLY-NNN:... [0-330] [seconds]
(Report Delay, NNN = existing programmed data)
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Enter a number of seconds to allow between transmissions; the range is 0 to 330; the
default (and recommended) is 10 seconds. Then press <ENTER>.
If data has been entered correctly, the following message appears:
OK
If the programming in this function is not completed within 65 seconds the function
will time-out. The Programmer will beep and the following message will be
displayed: TIMEOUT
NOTES ON SELECTING A CHECK IN TIME:
Choose a check-in time in accordance with the security requirements of the
installation.
Except for high security applications, a check in time of 24 hours is typical.
The more frequent the Check-In times are set, the more traffic there is on the
network.
Do not attempt to use a check in time of greater than 24 hours, 00 minutes.
4.4 Zone Programming
HandHeld Programmer: <Ctrl> + <F3> PC Terminal: <h>
The 7788F zone inputs are connected through a special isolated circuit. It is linked to
the processor through optical couplers to keep unwanted energy from entering the
main circuits.
Zones 1-8 are E.O.L. input triggers, which can be programmed for:
E.O.L. / Supervised, using 2.2K end-of-line resistors, alarm on open or short
E.O.L. / Fire Supervised, reporting trouble for open circuits, alarm on short
Bypass, where the zone input is ignored.
For Fire UL installations, the wiring of any FACP’s relay output to any 7788F zone
input must use an EOL / electrically supervised zone programmed with "F". On the
7788F, Zones 1 through 8 meet this requirement. Supervision of the zone inputs must
be in compliance with the requirements of NFPA 72. The default setting is “S” for
Supervised and must be changed to “F” for Fire supervised.
To permit the reporting of a Trouble condition in a “Trouble” message, “Fire/Trouble
PKT” (Fire Trouble Packet) must be enabled by selecting “Y” to the first prompt in
Zone programming. See Section 4.1 “Remote Programming Limitations” for
additional information on setting this parameter.
Zone Restorals: Each zone can be programmed to report “Restoral” to a normal
state. The default setting is “X” for "No" Restorals.
Factory default zone programming is set to (N) for no Fire Trouble, (S) for EOL
Supervision and (X) for no Restoral. If this is satisfactory skip to the next section.
UL installation must be changed to “Y” for Fire Trouble PKT and “F” for Fire.
Supervision.
Important Note: The 7788F MUST be reset after making changes to the Zone
Programming! This allows the unit to initialize reading its zone inputs based on its
current programming and clearing any former conditions that remain in memory
before any changes were made. Failure to do a Reset may result in such confusing
reports as an Alarm or Trouble on a zone that was changed to Bypass.
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To start, press programmer keys <CTRL>+<F3> (hold down the Control and the F3
keys at the same time). The following message appears:
FIRE/ ----OLD:NEW
TROUBLE PKT- N: . [Y/N] (N = existing data)
The sequence first asks if "Fire Trouble Packets" are to be sent. Answer Y/yes if you
wish to have the 7788F report "Zone Trouble" conditions. Otherwise answer N/no.
The existing programming is shown under the "OLD: " column. If you wish to
change the setting, enter Y or N. To leave unchanged, simply push <ENTER>.
Based on your response to this first parameter the available options for Set Zone
programming will vary.
Note: Answering “Y” to this question disables remote programming from
central station software. See Section 4.1.
After pressing <ENTER>, the following appears:
ZONE BANK 0 .
SET ZONE (BSF) B0 (available options)
OLD SSSSSSSS LOW>HI (S, F or B = existing data)
NEW ........ (Must enter exactly 8 values)
The available and valid Zone programming options are shown in the parentheses on
the display as shown above. The options that appear are determined by your input to
the "Fire/Trouble PKT" question above. The current programming is shown next to
the word OLD, Zones 1-8 in order left to right. Your new entries will appear directly
below next to the word NEW. You must enter a valid letter for each of the 8 zones.
Zones programming 1-8 can be set for: Entering more or less than 8 characters will
result in repeating the above response.
B - Bypassed
S - Supervised/E.O.L. (alarm on open or short);
F - Fire Supervised E.O.L. (alarm on short, trouble on open) Required for UL Fire
After successfully entering Set Zone data, the following appears:
SET RESTORAL (XR)B0 (available options)
OLD RRRRRRRR LOW>HI (R or X = existing data)
NEW .... (Must enter exactly 8 values)
The option to select individual zones to report returning to a normal state is available.
X = Restore Not Reported; R = Restore Reported. The existing or OLD
programming is shown for each zone. Your new entries will appear directly below
next to the word NEW. You must enter a valid letter X or R for each zone. Entering
more or less than 8 characters will result in repeating the above response.
When restore data entry is complete, Press <ENTER>. If data has been entered correctly,
the following message appears:
OK The zones are now programmed
Programming must be completed within 65 seconds or function will:
TIMEOUT
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4.5 Set Modes Enable Repeating and Suppress AC Fail
HandHeld Programmer: <Ctrl> + <F4> PC Terminal: <i>
There are several functions that can be programmed in the Set Modes programming
area. Repeating can be disabled and AC Fail Reporting can be suppressed.
To Start, press programmer keys <CTRL> + <F4> (hold down the Control and the
F4 keys at the same time). The following message appears:
SET MODES--OLD: NEW
ENABLE RPTNG-Y: .
Enter Y to enable repeating capability. Default is Y.
Press <ENTER> then the following appears:
SPRSS ACFAIL -N: .
Enter Y/yes to suppress the reporting of AC Fail messages, enter N/no (the default
and setting required in UL installations) to disable the feature and allow normal
reporting of AC Fail messages. Default is N.
After <ENTER> then the following appears:
SPRSS CHRGFLT-N: .
Enter Y for yes to suppress the reporting of Charger Fault messages, enter N for no
(the default and setting required in UL installations) to disable the feature and allow
normal reporting of Charger Fault messages. Default is N.
After <ENTER> then the following appears:
SPRSS GNDFLT-N: .
Enter Y for yes to suppress the reporting of Ground Fault messages, enter N for no
(the default and setting required in UL installations) to disable the feature and allow
normal reporting of Charger Fault messages. Default is N.
Press <ENTER>, If data has been entered correctly, the following message appears:
OK
If the programming in this function is not completed within 65 seconds the function
will time-out. The Programmer will beep and the following message will be
displayed:
TIMEOUT
Refer to Section 4.3 - Timing Parameters, for information on and programming the
AC Reporting Delay that determines when the AC Fail is reported after it is detected.
Reporting AC Fail is normally a very important message and should not be
suppressed. UL installations require this setting to be set at “N”.
4.6 Reset RAM
Use the Reset RAM function to return the 7788F to the factory default settings. All
parameters except the Unit ID and Cypher code are returned to default values.
It is good practice to perform this function on a new factory unit to ensure that you
are always starting from the same configuration. Also perform this function if this is
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a reinstallation of the unit, if you are unsure of the configuration or if you are having
other problems with the unit.
Press <CTRL>+<F5> then <Y> then <ENTER> to perform Reset RAM operation.
The Unit will initiate a Self-Test after the values are reset.
4.7 Initializing the Subscriber Unit
Having programmed the unit, you are now ready for a final check. Plug in the
handheld programmer if available. Push the Reset button on the controller board
(See Diagram 3). At this point, the message on the programmer should read:
SELFTEST - PASS
SUB [rev#] 7788F
ID#:NNNN (C) [date] AES
If a "Fail" error message other than 001, 101, 300 or 301 is displayed, push the reset
button. If the error persists, refer to Section 3.8, which contains a list of error codes.
The status lights indicate the progression as the subscriber unit goes on the air and
attempts to enroll into the network.
Details of automatic Network log on sequence after a reset:
STATUS INDICATOR LED's RX, TX and WA lights come on briefly,
testing the LED's.
RX comes on briefly during loop back test (a self test).
TX comes on sending a "Receiver Not in Service" message - AL + WA blink
at different but steady rates.
TX comes on as unit transmits a "Request for Reply".
WA stops flashing after about 15-30 seconds if one or more other subscriber
units reply to the "Request", (otherwise the WA continues to flash, indicating
the unit is not on the network).
TX comes on again (if WA stops flashing) to send first message.
AL blinks at a steady rate, indicating a normal condition.
When the unit receives a valid acknowledgment, the WA light turns off.
This indicates that the reset or powered up 7788F unit is now on the network.
IMPORTANT NOTE: A flashing WA light (blinking at a steady rate) indicates that
the subscriber has NOT linked itself into the network.
If enrollment fails, check antenna and all cables; be sure that correct system cipher has
been programmed in to the unit. Once the Subscriber is enrolled in its network,
additional testing can commence. At this point, with the WA off, the Subscriber has
passed the initial RF operational test.
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4.8 Local Status Check
HandHeld Programmer: <SHIFT> + <F4> PC Terminal: <d>
This function performs a quick diagnostic check at any time. Use the handheld
programmer: press <SHIFT>+<F4>. The following message appears:
SUB [rev#] 7788F
ID#:[NNNN] (C)YYYY AES
RT1:NNNN LEVEL: NNN
STAT:NNN NETCON: N
EXPLANATION OF STATUS CHECK TERMS
Top Line: Indicates Subscriber model and firmware revision information.
ID#: 4-digit ID number programmed into this unit.1
YYYY: Indicates Copyright year.
RT1: Route #1, the ID of the first Subscriber that will be attempted in route to
the central station. If RT1 is 0000 or an IP-Link ID, the unit is attempting to
communicate directly with the central station or IP-Link. If XXXX appears, the
unit is not on the network. Any other 4-digit ID indicates the unit at the top of the
routing table.
Dynamic Routing Table: Each subscriber unit maintains a list of up to 7
alternate IDs. IDs are prioritized according to signal strength and NETCON
ratings. This function is dynamic, and is updated constantly.
LEVEL: Refers to the subscriber unit “level" or "link layer”, which suggests the
expected number of “hops” the message packet might make to get to the central
station or IP-Link. In general, if the number is 1, then this unit is attempting
communication directly with the central station or IP-Link. If the number is 2, the
unit expects to relay its message through one other subscriber unit to reach the
central station or IP-Link. If the number is 3, the message goes through 2 other
subscribers ... and so on. Also, the level number of subscriber with a weak signal
to the unit on the top of its routing list will be incremented by 1. A unit level =
255 indicates that unit is not on network.
STAT: Status shows the self-test data
(Refer to Section 3.8 for explanation and resolution.)
NETCON: (NETwork CONnectivity) An internal rating used in the automatic
positioning of this unit in the network. The range is from 0-7, 0 being best. Note
that while a low number is better, any NetCon from 0 to 6 is OK. 7 may indicate a
problem with this unit or a unit in its path to the central receiver.
All Fire Alarm installations require a NETCON of 0 to 5
Minimum criteria for a "good" repeater are as follows:
1. RF signal exceeds good threshold
2. No faults indicated in status (such as low battery)
3. Level/Link Layer of Subscriber/IP-Link is less than or equal to this
unit’s
4. Signal received from Subscriber/IP-Link at least once every 6 hours
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4.9 Monitor Transmitter Functions
HandHeld Programmer: <SHIFT> + <F1>, <SHIFT> + <F2>, <SHIFT> + <F3>
PC Terminal: <a>, <b>, <c>
There are several functions that are useful for diagnostics purposes. These functions
allow the viewing of network data “traffic” that is picked up by the Subscriber’s RF
antenna and viewed on the programmer’s 4-line display at the installation site. It is
not practical to “read” this data on a Hand Held Programmer’s 4-line display as the
information may scroll off the screen too quickly. Using a HHP can be useful to
confirm that data is being sent and received, and if only Receive and Transmit
monitor are used. Use a Terminal with a larger screen such as a laptop with a
Terminal Program to take better advantage of these functions.
RECEIVE MONITOR ON/OFF
To use: Push programmer keys <SHIFT> +<F1> PC Terminal: <a>
RX MONITOR ON (OFF)
Hold down the Shift key and then press the F1 key to enable or disable (toggle) the
display of data addressed to this unit.
TRANSMIT MONITOR ON/OFF
To use: Push programmer keys <SHIFT> +<F2> PC Terminal: <b>
TX MONITOR ON (OFF)
Hold down the Shift key and then press the F2 key to enable or disable (toggle) the
display of messages transmitted by this unit.
MONITOR ALL ON/OFF
Note: requires that Receiver Monitor (RX Monitor) above must be on -
<SHIFT>+<F1> or <a>
To use: Push programmer keys <SHIFT>+ <F3> PC Terminal: <c>
MONITOR ALL ON (OFF)
Hold down the Shift key and then press the F3 key to enable or disable (toggle) the
display of all network messages within range of this unit.
The monitor functions should be disabled when installation and testing is complete.
Note: Text messages cannot be received when any of the monitoring functions
are in use. Use these functions only for diagnostics or test purposes. Toggle the
function OFF when not in use, or press the Reset Button, as a reset will return
all these functions OFF. See Section 3.4, Diagram 3 for location of Reset Button.
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Monitor Function output
The output from the monitor modes is somewhat cryptic. A brief over is provided
here with the suggestion that the Support Knowledgebase be visited for additional
information. First example is as viewed on an HHP which can only display two at at
time.
<ORIG #PN-> DEST FROM
-> TO <Pack ID>
ORIG is the ID that initiated or originated the Packet. PN is a sequential Packet
number between 00 and FF. DEST is the destination with 0000 indicating the Central
Receiver. FROM is the ID that has transmitted the Packet. TO is the ID that the
packet was transmitted to by the FROM. The -> represents an arrow showing the
flow or direction of the transmission. The next example as viewed on a PC Terminal.
<1234 #1A-> 0000 1234 -> FF01 <D_CHKIN>
<FF01 #1A-> 1234 FF01 -> 1234 <P_ACK>
The example above is a unit with ID of 1234 is transmitting a Check-In packet
through an ID of FF01 which is a common ID used for an IP-Link. The next line is
the Unit FF01 assumed to be an IP-Link responding with a Packet Acknowledgement.
<1234 #00-> 1234 1234 -> 1234 <P_RR>
The example above is a broadcast. All ID’s are the unit sending the broadcast
message. This particular broadcast is a Receiver Ready. These are periodically
broadcast by all units to update other units with that hear it of the latest status. This
keeps routing Tables up to date.
4.10 KEY TRANSMITTER
HandHeld Programmer: <SHIFT> + <F5> PC Terminal: <e>
This function activates the transmitter for about 5-6 seconds. This allows the installer
to use external test equipment (SWR, power meter, etc.) to test the radio power,
cables connections, antenna tuning and other radio parameters. It is assumed that the
programmer is connected to the subscriber, the transceiver is connected to the
subscriber circuit board, power is on and the antenna is connected.
To use: Push programmer keys <SHIFT>+ <F5> PC Terminal: <e>
KEYING TX..
Hold down the Shift key and then press the F5 key to activate the transmitter for 5
seconds. After the 5 seconds a TIMEOUT message will display. Press <ENTER>
before the 5 second timeout to abort in which case OK will be displayed.
Activating this function causes the transmitter to go on the air for 5 seconds, and then
shut off automatically. Press the ENTER key to cancel an active transmit test.
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4.11 Display Zone Status
HandHeld Programmer: <Ctrl>+<Z> PC Terminal: <Ctrl>+<Z>
Use this function to review the current state of each of the Subscribers Zone inputs
based on its programming and input state.
Zx##,Z1-8:####-####
Zx## - This is a Hexadecimal number representing the binary bit pattern of the
Zones input condition. I.e. Hexadecimal 12 = binary 00010010. Bit positions 2 and 5
are 1 indicating that those zone positions are in alarm.
Z1-8: The row of characters represents in order, each individual zone state.
####-#### - Each character represents the Status of a specific zone, displayed
left to right for zones 1 to 8, separated between position 4 and 5 with a hyphen.
Possible Values - 0 = Normal, 1 = Faulted, Not Normal or Alarm, T = Trouble.
4.12 Display Routing Table
HandHeld Programmer: <F4> PC Terminal: <Ctrl> <T>
Use this function to display up to the 8 ID’s that are listed in this Subscriber’s current
Routing Table.
4.5678,L:02,N:5,Q:83 unit 5678, Weak signal (8x)
3.7888,L:01,N:5,Q:03 unit 7888, Good Signal
2.BB12,L:00,N:0,Q:03 an IP-Link BB12, Good Signal (03)
1.AA11,L:00,N:0,Q:03 an IP-Link AA11, top of the list = RT1
Press F4 on a HHP or Ctrl + T on a PC to display Routing Table information. Only up to the
top 4 are visible due to limitations of the HHP’s 4-line display. A PC displays the entire
table up to 8. The order is reversed so that the most significant top 4 will remain on the
display of the HHP where 5 through 8 would have scrolled off.
Fields displayed left to right are, Preference or sort order (1.-8.), ID, Link Layer or Level:##,
NetCon:# (0-7), Signal Quality:## (03 = Best , 81 = worst)
Routing Table A Routing Table is a list of up to 8 IDs that a Subscriber maintains for
selecting the ID to pass its data packets on through. It is sorted so that the best ID is at
Preference location 1. If no Packet Acknowledge is received after attempting transmissions
to the #1 seven times, the #1 ID is removed from the Table and all other’s preferences are
incremented by 1. Transmission attempts resume using the new Preference 1 ID.
Link Layer or Level Link Layer as reported by last transmission from ID. Value
displayed in the table will be incremented by 1 if the Signal Quality is not “Good” or there
are faults reported by the ID. Link Layer is the number of hops a data packet would need
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using the ID as first in the route, assuming all IDs in the route successfully used their
Preference 1 IDs as well.
NetCon Briefly it is a confidence number where the lower the number, the more
confidence a Subscriber should have in the ID’s ability to pass the packet on as lower
numbers indicates healthier routing tables with more options. In UL 9th Edition compliant
units the NetCon is used as a multiple path indicator, not lower than 5.
Signal Quality The first digit is either an 8 or a 0. 0 means Carrier Detect (CD) was on
during signal reception. 8 means it was off. CD is related to signal strength where it is on
when the strength of the signal is above a certain threshold. The second character is related
to readability of the data. 3 is the best indicating all three of the data repeats were properly
read and 1 is the lowest meaning that only one of the three was. Therefore a Good signal
would read 03 and a Marginal would be 82 or 81.
4.13 Text Messages
SENDING TEXT MESSAGE
HandHeld Programmer: <F5> PC Terminal: <Ctrl>+<U>
Text messages can be sent from the subscriber unit to the central station.
To use: Push programmer key <F5> or PC Terminal: <Ctrl>+<U>
ENTER MSG:
[Enter your text message, up to 200 characters. Push <ENTER> to send.]
If no data is entered within approximately 65 seconds, the unit will exit the text
message mode.
Note that the unit is unable to transmit or receive while in this mode.
RECEIVING ASCII TEXT MESSAGES
Messages can be sent from the central station to any subscriber unit. If the handheld
programmer or other properly configured serial terminal is connected to the unit’s
J1/Programmer jack, the message will be displayed on the screen with a beep sound.
This is a handy feature for communications between installers and central stations and
to test how quickly communication occurs.
Note: Text messages cannot be received when using any of the monitor functions.
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4.14 Handheld Programmer Quick Command Guide
Handheld Programmer Commands
CTRL+F1 SETUP UNIT - ID#, Cipher
CTRL+F2 SET TIMERS - Check-In Interval, AC Report Delay
CTRL+F3 SET ZONES - Supervised/Fire/Bypassed/Restoral
CTRL+F4 SET MODES Repeating, AC Fail Suppression
CTRL+F5 RESET RAM - Y/N, resets factory defaults
Except ID# and Cipher
SHFT+F1 RX MONITOR ON / OFF (toggle)*
SHFT+F2 TX MONITOR ON / OFF (toggle)*
SHFT+F3 MONITOR ALL ON / OFF (toggle)*
SHFT+F4 TEST STATUS
SHFT+F5 KEY TRANSMITTER (5 seconds)
F5 SEND TEXT MESSAGE
* Turn off monitor functions when done (or press reset button)
4.15 Reconnect Cables after Programming
After programming is complete, reconnect any cable (such as the cable to the AES
IntelliTap), disconnected from J1/Programmer jack of the main circuit Board.
4.16 Programming the Subscriber Unit from a PC
In place of a handheld terminal, a cable adapter kit #7043E may be ordered from
AES to link the 7788F to your computer’s serial port.
Communications Parameters: 4800 baud, NO parity, 8 data bits, 1 stop bit, RTS/CTS
Flow control OFF
Handheld (HH) Programmer Key equivalents to (PC) Keyboard:
HH PC
HH PC
HH PC
__PC
F1 = CTRL-Q
SHIFT F1 = a
CTRL-F1 = f
F2 = CTRL-R
SHIFT F2 = b
CTRL-F2 = g
F3 = CTRL-S
SHIFT F3 = c
CTRL-F3 = h
F4 = CTRL-T
SHIFT F4 = d
CTRL-F4 = i
F5 = CTRL-U
SHIFT F5 = e
CTRL-F5 = j
When entering Hex numbers, use uppercase, i.e., "9A" not "9a"
If possible, set terminal program for destructive backspace" so that backspace will erase
the deleted character from the screen.
If nothing is sent or received by the subscriber, make sure the program is set to the
correct COM port.
If the subscriber receives characters, but nothing can be sent, make sure the CTS/RTS
flow control is OFF, and that the cable is OK.
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5 Testing
Before leaving the installation site, you want to test that the expected signals are
properly getting to the monitoring system. Perform at least the tests below and
confirm that the monitoring system and personnel properly received the correct
messages and understand what they mean.
5.1 Installation Site Checks
Some of the tests to be performed at the installation site require a response from a
Central Station person.
Trigger alarm conditions and confirm that the proper message is received at
the Central Station.
Cause fault conditions and confirm that the proper message is received at the
Central Station.
Activate devices that will utilize any accessories such as the IntelliTap to
confirm that these devices are functioning as desired.
Activate devices that will utilize any accessories such as the IntelliTap or
IntelliPro to confirm that these devices are functioning as desired.
Perform a Status Check, <Shift> + F4 to confirm good Status and required
NetCon.
Review Routing Table, <F4> to evaluate the listed IDs and values.
Ctrl + T to check current Zone state
5.2 Acknowledge delays
An Acknowledge delay occurs when a Packet Acknowledge is not received for a
transmitted Data Packet within the programmed Acknowledge Delay time. (Default
Ack Delay Time is 60 seconds).
Visit the Technical Support Knowledgebase for additional information on this and
many other subjects.
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6 Maintenance, Compliance, Warranty and Repair
Once installed and normal operation is confirmed, there is typically little maintenance
required. Monitoring the automatic test messages will confirm proper RF operation.
Batteries should be periodically tested to be certain they have sufficient capacity to
operate the system as needed.
6.1 Troubleshooting
The most common causes of an RF failure or trouble are due to issues with the
transmission line including but not limited to the antenna type, antenna location,
coax, connectors, and transceiver. Antennas in close proximity to metal or with
conductive material blocking or reflecting the transmitted signal would be at the top
of the list. Observe the RX light on the main circuit board. If it is on steady or most
of the time you may be receiving some RF or electrical interference. Try different
locations for the antenna or use a remote long range RF antenna. Try replacing the
transmission line components such as a new transceiver, coax and antenna.
Problems on the circuit boards usually require returning the defective unit to AES for
service.
6.2 Parts List
The standard 7788F Subscriber includes the following items.
o Enclosure
o 7788F Circuit board assembly
o 7085UE Transceiver at licensed or authorized frequency
o 7214 Tamper Resistant Antenna Assembly and cable
o 40-7788 Instruction manual
o 02-0029-EOL Qty. Eight 2.2K Ohm E.O.L. Resistors
6.3 Contact Information
AES Corporation
285 Newbury Street
Peabody, Massachusetts 01960 USA
Website: http://www.aes-intellinet.com
AES corporate Phone: (800) 237-6387 (800) AES-NETS
USA (978) 535-7310
Fax: USA (978) 535-7313
Email: Check Website for latest email addresses
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6.4 Warranty and Service Procedure
OWNER WARRANTY - AES CORPORATION
LIMITED PRODUCT WARRANTY AND TECHNOLOGY LICENSE
LIMITED PRODUCT WARRANTY:
AES Corporation (“AES”) warrants to the original purchaser that each AES Subscriber Product will be free
from defects in material and workmanship for three (3) years from date of purchase and all other products
purchased from AES including central station receivers and accessories will be warranted for one (1) year
from the date of purchase. At no cost to the original purchaser for parts or labor, AES will repair or replace
any AES Product or any, part or parts thereof which are judged defective under the terms of this Warranty.
Defective AES Products must be returned to AES directly, provided they are properly packed, postage
prepaid. Or exchange may be made through any authorized direct factory representative for any AES
Products that are judged defective under the terms of this Warranty. Improper or incorrectly performed
maintenance or repair voids this Warranty. This Warranty does not cover replacement parts that are not
approved by AES. This Warranty does not apply to any AES Product or any part thereof that has been
altered in any way to affect its stability or reliability, or that has been subjected to abuse, misuse, negligence,
accident or act of God, or that has had the serial number effaced or removed.
Certain AES Products are designed to operate and communicate with other specified AES Products and
certain other specified products, systems or networks authorized or approved by AES, as identified in the
applicable AES Product instructions. This Warranty does not apply to any AES Product that is used with any
unauthorized or unapproved products, systems or networks, or that has been installed, applied or used in
any manner, other than in strict accordance with AES instructions.
AES makes no warranty, express or implied, other than what is expressly stated in this Warranty. If the law
of your state provides that an implied warranty of merchantability, or an implied warranty of fitness for
particular purpose, or any other implied warranty, applies to AES, then any such implied warranty is limited to
the duration of this Warranty.
AES cannot be aware of and is not responsible for the differing values of any property to be protected by its
alarm reporting systems. This Warranty does not cover and AES shall not be liable for any defect, incidental
or consequential, loss or damage arising out of the failure of any AES Product to operate.
Some states do not allow the exclusion or limitation of the durations of implied warranties or the limitation on
incidental or consequential damages, so the above limitations or exclusions may not apply to you.
This Warranty gives you specific legal rights and you may also have other rights that vary from state to state.
TECHNOLOGY LICENSE:
Certain AES Products include software, protocols and other proprietary and confidential technology and
trade secrets of AES which are incorporated in or provided with AES Products solely for use in conjunction
with and in order to operate AES Products (“Licensed Technology”). AES grants the original purchaser a
non-exclusive license to use such Licensed Technology solely in connection with the use and operation of
AES Products and for no other purpose or use whatsoever. No title or ownership in or to any such Licensed
Technology is conveyed by the sale or delivery of any AES Products; all such rights are retained by AES.
AES SERVICE PROCEDURE: Contact AES by Phone (978) 535-7310, Fax (978) 535-7313 or Email
service@aes-intellinet.com, to receive a Return Material Authorization Number. Have the AES part number
and serial number ready. Repack equipment in original or equivalent packaging. Inside the box, please
include a contact name, telephone number, address and a brief description of the reason for return.
Ship items freight-prepaid to:
Repair Services, RMA#__________
AES Corporation,
285 Newbury Street
Peabody, MA 01960 USA
(Contact AES for Return Material Authorization number)
June 2007