Specifications
INTRUSION/ACCESS/FIRE/INTEGRATED SYSTEM
PERFORMANCE SPECIFICATION FOR DMP MODEL XR150/XR350/XR550 SERIES
XR150/XR350/XR550 Intrusion/Access/Fire Detection Specification 11
5.4 Keypads
A. The system shall support a maximum of sixteen (16) keypads on XR550/XR350 Series or eight (8) keypads on XR150
Series with alphanumeric display. Each keypad shall be capable of arming and disarming any system area based on a
pass code or Proximity key authorization. The keypad alphanumeric display shall provide complete prompt messages
during all stages of operation and system programming and display all relevant operating and test data.
B. Communication between the control panel and all keypads and zone expanders shall be multiplexed over a non-
shielded multi-conductor cable, as recommended by the manufacturer. This cable shall also provide the power to all
keypads, zone expanders, output expanders, and other power consuming detection devices.
C. If at any time a keypad does not detect polling; the alphanumeric display shall indicate “SYSTEM TROUBLE”. If at any
time two devices are programmed for the same address, the alphanumeric keypad shall display “4 WIRE BUS TROUBLE”.
If at any time a keypad detects polling but not for its particular address, the alphanumeric display shall indicate “NON
POLLED ADDR”. The system shall display all system troubles at selected keypads with distinct alphanumeric messages.
D. The keypad shall include self-test diagnostics enabling the installer to test all keypad functions: display test, key test,
zone test, LED test, relay test, tone test, and address test.
E. The keypad shall provide an easy-to-read English text display. The text shall exactly match the text seen in all
software reports, keypad displays, and central station reports.
F. The keypad user interface shall be a simple-to-use, menu-driven help system that is completely user friendly.
G. The control panel shall support a keypad interface accessible on the World Wide Web in a browser window. The web-
accessible keypad interface shall provide at least five (5) programmable hyperlinks for camera access or other use.
5.5 Zone Configuration
A. A minimum of 4 Class B ungrounded zones shall be available at each keypad or zone expander on the system.
The system shall have the capacity for a maximum of sixteen (16) keypads and a maximum of 125 four (4) zone
expanders or 500 single zone expanders on the XR550. It shall also have the capacity of a maximum of 125 supervised
relay output expanders. The XR350 shall have the capacity for a maximum of sixteen (16) keypads and a maximum of
125 four (4) zone expanders. It shall also have the capacity of a maximum of 75 supervised relay output expanders. The
XR150 shall have the capacity for a maximum of eight (8) keypads and a maximum of 25 four (4) zone expanders It shall
also have the capacity of a maximum of 25 supervised relay output expanders. All Class B zones shall be 2-wire, 22 AWG
minimum, supervised by an end-of-line (EOL) device and shall be able to detect open and short conditions in excess of
500ms duration.
B. Each zone shall function in any of the following configurations: Night, Day, Exit, Fire, Supervisory, Emergency, Panic,
Auxiliary 1, Auxiliary 2, Fire Verification, Cross Zone, Priority, and Key Switch Arming.
C. The digital SLCs and the annunciator/keypad bus shall be able to operate at a maximum wiring distance of 2500 feet
from the control panel on unshielded, non-twisted cable. This distance may be extended to a total of 15,000 feet when
bus repeater modules are installed.
D. Each zone shall function in any of the following configurations:
Night Supervisory Auxiliary 1 Cross-Zone
Day Emergency Auxiliary 2 Priority
Exit Panic Fire Verification Arming
Fire
5.6 Communication
A. The system shall be capable of signaling to as many as 8 remote monitoring station receivers. Seven (7) of the eight (8)
paths shall be capable of being assigned as either a “primary” or “backup” path. In such a manner the system shall have
multiple primary paths to multiple remote monitoring stations as well as multiple backup paths to multiple monitoring
stations.
B. The system shall employ Adaptive Technology that allows a Backup communication path programmed for Network or
Cellular to automatically ADAPT to the faster check-in rate of the Primary path should the Primary path become
unavailable. This creates a seamless transition for communication.
C. The system shall be capable of dialing up to (2) remote monitoring station receivers, four telephone numbers of 32
digits each using two separate switched telephone network lines such that if two unsuccessful attempts are made on
the first line to the first number, the system shall make two attempts on first line to the second number. If these two
attempts are unsuccessful, the system shall make two further attempts on the first line of the first number. After the
tenth unsuccessful attempt, dialing shall stop and the alphanumeric keypad shall display trouble. Should another event
occur that requires a report to be transmitted, the dialing sequence shall be repeated. The system shall have a
programmable option to dial a second set of telephone numbers after the first ten attempts using the same sequence.
D. The system shall be capable of communication using the IBM Synchronous Data Link Control format, and at least one
other standard industry format.