Certification Test Report 433.92 MHz Alarm System FCC ID: Q6K 1000-7251 FCC Rule Part: 15.231 ACS Report Number: 04-0056-15C231 Manufacturer: 3SI Security Systems Model: MCU Installation and Operators Guide 5015 B.U.
Overview: The Octopus ATM Defense System is a wireless system consisting of an ATM Monitor and Control Unit (MCU) and Cassette Staining Units (CSU). This system, once installed into an ATM, becomes a closed wireless protection network within the ATM. The operational frequency of the system is set to allow worldwide operation and deployment of the protection system. Currently, the system is UL, FCC, IC, and CE compliant.
Table of Contents Overview: ...................................................................................................................................................................1 Features: .....................................................................................................................................................................1 Table of Contents.............................................................................................................................
Copyright 3SI Security Systems, Inc. 2003 All Rights Reserved. Except as allowed by copyright laws or herein, reproduction, adaptation, or translation without prior written permission is prohibited. A user of the Octopus ATM Defense System associated with this guide is granted a license to print hard copies of this guide for internal or company use subject to the restriction not to sell, resell, or otherwise distribute the hard copies.
FCC regulations NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Packing List: The Octopus ATM defense installation package for a typical two cassette ATM contains a Monitor and Control Unit (MCU), two Cassette Staining Units (CSU), and a sensor array cable assembly for interface of the MCU to the ATM. Figure 1 below is a representative picture. ** Note: Units arrive with ink delivery system disconnected, and power off. Opening of both the MCU and CSU enclosures is required to power the units and connect the ink staining system to the electronics assembly.
Product Specification: Monitor and Control Unit (MCU) Description Size: Operational Frequency: Specification 3.3 x 5.6x 1.
Battery Pack Custom design dual output Onboard jumper options Power jumper, J4 H/V jumper, J22 DM, J24 DS, J3 Configuration jumper J25 Configuration jumper J26 Agency compliance UL, FCC, IC, CE Size Supported Currency Cassette: Input Outputs Onboard Sensors Onboard jumper options Battery Pack Agency Compliance Octopus ATM Defense System Installation and Operation Guide Cassette Staining Unit (CSU) Defined based on manufacturer and model of the currency cassette Deibold MMD Diebold MDDM NCR narr
Components Overview: Cassette Staining Unit (CSU) The CSUs are a complete self-contained staining system. The CSU has a custom battery pack, a vacuum form cover, an electronics assembly, a mounting bracket, an ink reservoir, and an ink delivery system. The electronics assembly (EAS) is generic and exists in all system installations; however, the ink reservoir, bracket, and ink delivery system are specific to the manufacturer and model of the cassette.
Monitor and Control Unit (MCU) The MCU is the monitor and control unit. It has 8 selectable sensor inputs for monitoring ATM status. The sensor inputs contain normally-open (NO), normally-closed (NC), and an optical isolated inputs. The MCU also contains on-board sensors for tilt, continuous motion, light sensor(s), and thermal violation. Details about the inputs may be found in section 2.0 Installation Guides and in section 4.0 Functional Operation.
Installation Instructions: First the CSUs should be installed into the ATM cassettes, then the MCU can be installed. Installation of the CSU depends on the manufacturer make and model of the cassette. The instructions for modification of the supported cassettes are attached in Appendix E through I. Please refer to the table of contents in order to determine the make and model of the cassette you wish to install. Insure that all external sensors and switches (DOOR, SMOKE, BREACH, SIREN, etc.
MCU Installation Installation of the MCU is as follows: 1. 2. 3. 4. 5. 6. 7. 8. Open the MCU enclosure by removing the four screws from the cover. Attach power jumper J4. Verify Configuration jumpers using Appendix D. With CSU’s installed into the cassettes with their ink bocks replaced with a jumper on the CSU Squib cable. Holding it in your hand, place the MCU in the position decided for installation. Press the POST button. Insure proper discovery.
12. Connect all used sensor array wires to the ATM sensor array (or provided sensors). Refer to Appendix C for a wire color chart of provided cabling. 13. Any unused sensor inputs should be shorted to the ground wire if the are normally closed. If the sensor input is normally open, caution should be used to insure that they do not make accidental contact to ground. 14. If Test Mode is to be initiated hold down the POST button will re-installing the power jumper J4. 15.
Basic Operation: A high level functionality follows, but for more detailed operation use the flow diagrams and the discussion on page 14. Software flow diagrams on pages 15 to 18, shows operation of the Octopus ATM Defense System. Following the flow diagram each state and its characteristics are discussed in detail. 1. With the CSU installed in the cassettes and the MCU installed in the ATM safe cavity. If power is supplied to the MCU and CSUs they will be in STANDBY mode.
MCU alarms that lead from ALERT to FIRE mode, which are processed every second are: a) Thermal violation, b) Motion > 60 seconds. c) Light detection (in Level V only). MCU alarms that leads from ALERT to ALERT mode, which are interrupt processed are: a) Generic NO input # 1, b) Generic NO input # 2, c) Generic NC input # 1, d) Generic NC input # 1 (or Bolt Indicator in Level II), and e) Power Loss (if power was monitored).
Detailed Operation: Software flow diagrams on pages 22 to 25, shows operation of the Octopus ATM Defense System. Following the flow diagram each state and its characteristics are discussed in detail. The numbered bubbles ( follows. * ) are directly correlated between the flow diagram and the discussion which POR Upon application of power, battery installed and Jumper J4 shorted. The unit will initialize all ports and sensors. It will the check for the presence of the POST button activation signal.
c) CSU self-test The MCU will cause the CSU to self-test all sensors and inputs. After completion if no errors are found the CSU will beep once to indicate no faults. If an error exists the CSU will beep 2 times to indicate a fault condition. Further it will report this error to the MCU for BIST code readout. d) MCU self-test The MCU will do an internal self test to determine if errors or faults exist.
4 ARMED mode operation: Once a unit enters ARMED mode it is ready to protect the currency inside the ATM cassettes. The beginning of ARMED mode is very much like the POST operation while in (door open) STANDBY mode. However, now that the door is secure no BIST readout will occur. 5 Pre-arm checking of the system.
8.2 8.3 9 Wakeup Contact Change Every time a interrupt occurs it is debounce processed and immediately compared for action based on the software protocol. Wakeup Polling Timeout This is a periodic time which causes a interrogation of the CSU status and exchanges information of state condition between the CSU and MCU. Alarm verification: When an alarm event occurs it is said to be “triggered”, this immediately causes the system to verify the validity of the event by de-bouncing the input.
13 ALERT mode operation: ALERT mode is the only mode in which the CSUs can protect themselves. The CSUs are protected againt thermal, light detection and tilt. This will prevent removal of the CSU from the ATM rack without activation. 14 Sending ALERT messages to CSU. The first job of the MCU when going to alert is to notify the CSUs within the ATM system of the event. Including the reason for the event. 15 Sleeping. As with ARMED mode the majority of the ALERT time is spent in a sleep state (~ 98.
a) b) c) d) e) f) 21 Generic NC input # 1 open Generic NO input # 1 closed Generic NO input # 1 closed Power Loss Motion > 15 seconds, and Thermal Rise (>30 ºC in two minutes). Resetting all ALARM counters. There a two main timers used in ALERT mode: 22 TIMEOUT_1 = TIMEOUT_2 = 60 minute alert condition. All alert events cause the unit to stay in ALERT mode for 60 minutes from the last ALERT event. At the end of TIMEOUT 1 the status of the ALERT event is rechecked see 24. 30 minute secondary timer.
27 Final ALERT event check. After 90 minutes of ALERT mode, the system looks to make sure that all ALERT events that are inactive have been held for 60 minutes minimum, and any active ALERT event has been in affect for 90 minutes. Any active ALERT event at this time is disabled, the system will return to the ARMED mode until either a STANDBY event or another ALERT event occurs. 28 Logging all events. All alert conditions are logged to a LIFO register in non-volatile random access memory (NVRAM).
POR and STANDBY mode flow chart POR 1 PRESS TO TEST ? TEST MODE See APPENDIX T 5 BEEPS STANDBY MODE 2 DOOR OPEN ? N LEVEL II ? Y 2A Y N Y BOLT CLOSED ? 3 N PRESS TO TEST ? ARMED MODE Y DISCOVERY BEEP COUNT 3.1 SELFTEST CSU SELFTEST MCU 2 BEEP MCU Y FAULT EXIST ? 3.
ALERT mode software flow diagram 8 4 ARMED WAKEUP OCCURRED ? PROCESS INTERRUPT DISCOVERY 8.1 WAKEUP TIMEOUT ? CHECK SENSORS BEEP COUNT REGISTER ALARM 5 SELFTEST CSU 9 8.2 PROCESS ALARM 8.
ALERT mode software flow diagram. 13 16 ALERT MODE 17 INTERRUPT OCCURRED ? 14 PROCESS INTERRUPT ALERT MSG CSU 17.1 Y CHECK SENSORS 15 WAKEUP TIMEOUT ? SLEEP REGISTER ALARM 18 N 17.3 17.
FIRE mode software diagram.
Appendix A System Indications and Error Code Readout When the door is open and the press to test button in the MCU is activated. A sequence of events occurs.
AREA WORD ERROR CODE AREA ERROR ERROR CONDITION MCU INTERNAL SENSOR 1000 1001 1000 1010 1000 1011 MCU EXTERNAL INPUTS 1100 1001 TEST MODE ONLY 1100 1011 1100 1100 TEST MODE ONLY 1100 1110 1100 1111 TEST MODE ONLY CSU ONBAORD SENSORS 1110 1001 1110 1010 1110 1011 1110 1100 Table 1.
Octopus ATM Defense System Installation and Operation Guide Page A3
Appendix B Optional Components 1 Door Contact Switch Required in the basic installation kit, the door contact is a long throw normally-closed to activate. The purpose of the door contact switch is to detect the door position as open or closed. Most ATMs already have door contacts available that can be used; however, in the event that a door state indicator is not available the door contact switch must be used to arm the system.
9 Siren Module – Future Option Unavailable with initial release. The siren module is a self powered 128 dB swept audio oscillator. It is intended as a deterrent device much like the smoke generator to warn the crook of imminent staining. It is readily audible outside the immediate area of the attack to alert onlookers and possible witnesses. Once activated the siren will require battery replacement before proper operation can be insured.
Appendix C MCU Sensor Array Cable and RIM wiring On the MCU there is an RJ45 connector for installation of the sensor array cable input. Table 4 below shows the contact and compares its pin-out to standard wire coloring for Category 5 enhanced ethernet cable. If another cable is used the color schem will be different. Pin of connector Wire Color CAT5e 1 Orange Stripe 2 Orange 3 Green Stripe 4 Blue 5 Blue Stripe 6 Green 7 Brown Stripe 8 Brown RJ11 connector wiring designation.
Appendix D Configuration Jumper Selection On both the MCU and CSU a number of jumpers provided to allow for configuring operation. Definition: Jumper, JXX Shunt Jumper Silkscreen Indicator MCU -2 pin header assembly attached to PCB.
Appendix E Octopus Installation Instructions for the Diebold MMD Cassette Page E1
INFORMATION TO THE USER Tools Required The following tools(not included in the installation kit) may be required to install the Octopus ATM Defense system: •Hand Grinder (Dremel™ Type) with cutoff saw, rotary file and ground burs.
1.0 Introduction Prior to bracket installation, the Diebold MMD Cassette must be modified to accept the Octopus ATM Defense System. The procedure includes trimming and cutting several existing cassette components. 2.0 Shorten Guide Rails Top, currency guide rails must be trimmed to provide 70mm clearance between the rail and the inside front of the cassette (A) Figure 1. Measure 70mm, mark rails and cut rails and black inserts. Reinstall Rails. 70mm (A) B Figure 1 3.
5.0 Trim Cut-away the left rail-stop for 22mm clearance as shown in Figure 3. Figure 3 22mm 6.0 Trim Bottom Currency Guides Trim both bottom currency guides flush with the front edge of the rubber locking pads (D) Figure 4. Figure 4 E D 7.0 Trim Bottom Left Currency Guide Trim the left, bottom currency guide at a 45° angle (E) Figure 4 as shown.
8.0 Clean Cassette Bracket Mounting area Temporarily place the bracket assembly in the cassette, note where the three, elongated, slotted mounting holes line up with the cassette sides. Remove the Bracket Assembly and, (IMPORTANT)thoroughly clean the sides in the noted area with the alcohol wipes. 9.0 Mark Location for Bracket Mounting Plates (3) Place the Bracket Assembly into the cassette and set the distance between the front of the bracket and the inside of the cassette front to 42mm Figure 5.
10.0 Mount Bracket Mounting Plates Remove the release backing from the Bracket Mounting Plates and mount the plates with the holes over the previously applied dots as shown in Figure 6. Figure 7 11.0 Prepare Bracket for Installation Prepare the bracket and ink delivery system by removing the four nuts and the CSU plastic cover. Locate J3 (Firing circuit) and J4 (Power). Remove the red shunts and replace, bridging the two posts on each connector (Figure 7). Replace the plastic cover and securing nuts.
12.0 Secure Bracket Assembly Reinsert the Bracket assembly, install the three mounting screws with fiber washers. Do not tighten. Reset the distance between the front of the bracket and the inside of the cassette front to 42mm Figure 5 and tighten the three mounting screws. Open and close the cassette cover to check for interference. Adjust as required. 13.0 Test Electronics Test the CSU electronics by depressing and releasing SW9 (Figure 7). One beep indicates that the CSU is fully functional.
Appendix F Octopus Installation Instructions for the DeLaRue MDDM Cassette o Page F1
INFORMATION TO THE USER Tools Required The following tools(not included in the installation kit) may be required to install the Octopus ATM Defense system: •Hand Grinder (Dremel™ Type) with cutoff saw, rotary file and ground burs.
1.0 Introduction Prior to bracket installation, the DeLaRue MDDM Cassette must be modified to accept the Octopus ATM Defense System. The procedure includes trimming and cutting several existing cassette components. 2.0 Trim Currency Pressure Plate Cut out a section of the currency pressure plate, as shown in Figure 1, to clear the spray bar on the Octopus bracket. REMOVE Figure 1 3.0 Trim Currency Guides Trim left and right currency guides flush with the mounting posts as shown in Figures 2 and 3.
Figure 3 4.0 Trim Top Guide & Add Support Remove top currency guide and trim to 210 mm as shown in Figure 4. Clean metal cassette lid and top currency guide in area labeled A with an alcohol wipe. Remove the release paper from the top rail support, and place the smaller end into the cut end of the top rail support. Screw the top rail support to the cassette lid while centering the cut end of the support in the lid. Press the rail support firmly to seat the adhesive tape.
5.0 Remove Screws Remove, and retain, the three securing screws, B, Figure 5. B Figure 5 6.0 Prepare Bracket for Installation Remove the four nuts and remove the CSU plastic cover. See Figure 6. Locate J3 (Firing circuit) and J4 (Power). Remove the red shunts and replace, bridging the two posts on each connector. Replace the plastic cover and securing nuts. Make certain that the two-wire electrical cable between the CSU electronics and the Ink Block is connected.
7.0Install Bracket Assembly Install the Octopus bracket assembly into the cassette as shown in Figure 7. Slide the bracket forward to maximize the currency capacity, replace and tighten the three screws (Figure 8). Note: it may be easier to replace the screws if they are temporarily fixed the the tool tip with tape. Slide the Currency Pressure Plate, close and open the cassette lid to make sure that there is no interference.
8.0 Test Electronics Test the CSU electronics by depressing and releasing SW9 (Figure 7). One beep indicates that the CSU is fully functional. Two beeps indicates a failure and requires troubleshooting. Recheck cable connections and shunt connections (Section 6.0).
Appendix G Octopus Installation Instructions for the Perto “A” C-130 Cassette Page G1
INFORMATION TO THE USER Tools Required The following tools(not included in the installation kit) may be required to install the Octopus ATM Defense system: •Hand Grinder (Dremel™ Type) with cutoff saw, rotary file and ground burs.
1.0 Introduction Prior to bracket installation, the Perto Cassette must be modified to accept the Octopus ATM Defense System. The procedure includes trimming and cutting several existing cassette components. 2.0 Modify Currency Guides Remove the left (looking from the front) currency guide. Remove 11 cm of the vertical portion flush with the horizontal portion (Figure 1). Figure 1 11 cm 3.0 Modify Top Guide Length Trim the top currency guide rails to 278 mm length (Figure 2).
4.0 Drill Top Guides Drill a 4 mm diameter centered hole 6 mm back from the cut end of the guide rail on both pieces (Figure 3). Figure 3 5.0 Drill Lid Place the currency guides over the rear screws, making sure that the rails are parallel with the cover mark through the drilled hole onto the lid. Drill the holes through with a 4 mm drill bit (Figure 4).
6.0 Replace Top Guides Reinstall the screws, washers nuts and guide rails. Adjust the height of the guide rails for the local currency. 7.0 Bracket Securing Screws Remove and retain the four forward (leave the rear screws in place)screws holding the left and right external plastic guide rails (Figure 5). REMOVE LEAVE Figure 5 8.0 Bracket Preparation Prepare the bracket and ink delivery system by removing the four nuts and the CSU plastic cover. Locate J3 (Firing circuit) and J4 (Power).
9.0 Install Bracket Install the bracket assembly into the cassette with the bracket seated firmly on the bottom and positioned as far to the front of the cassette as possible (Figure 7). Replace the four screws to secure the bracket and external plastic guide rails. Figure 7 Figure 8 10.0 Seal Lid Holes Cover the three holes on the cassette lid with opaque tape (electrical tape) to shield the CSU light sensor when the lid is closed (Figure 8). 11.
Appendix H Octopus Installation Instructions for the DeLaRue NMD Cassette Page H1
INFORMATION TO THE USER Tools Required The following tools(not included in the installation kit) may be required to install the Octopus ATM Defense system: •Hand Grinder (Dremel™ Type) with cutoff saw, rotary file and ground burs.
1.0 Introduction Prior to bracket installation, the DeLaRue NMD Cassette must be modified to accept the Octopus ATM Defense System. The procedure includes trimming and cutting several existing cassette components. 2.0 Modify Guide Rails Mark both aluminum guide rails at the edge of the plastic supports as shown in Figure 1. REMOVE Figure 1 Remove the two aluminum currency guide rails and positioning springs and cut off the forward portion of the rails as marked in Figure 1.
5.0 Modify Springs Trim the straight spring extension and place a hook in the end as shown in Figure 3. This is to accommodate the shortened guide rail. Original Spring Figure 3 Modified Spring 6.0 Re-install Guides Replace currency guides and springs. Adjust separation and height for local currency size. Guide installation is shown in Figure 4.
7.0 Modify Currency Pressure Plate Using a rotational cutter, modify the green plastic pressure plate (Figure 5). Temporarily place the spray bar and bracket in place to assure that there is no interference as the plate slides from from to back. The spray bar should be positioned within a few millimeters of the currency position. Figure 5 8.0 Prepare for Bracket Mounting Pad Installation Place a small dot between the 20th and 21st tooth on the gear rack, both sides, as shown in Figure 6.
9.0 Install Bracket Mounting Pads Remove the release backing from the Bracket Mounting Plates and mount the plates with the holes centered over the dots created in Section 8.0. See Figure 7. Figure 7 10.0 Prepare Bracket for Installation Prepare the bracket and ink delivery system by removing the four nuts and the CSU plastic cover. Locate J3 (Firing circuit) and J4 (Power). Remove the red shunts and replace, bridging the two posts on each connector (Figure 6). Replace the plastic cover and securing nuts.
11.0 Clean Cassette Bracket Mounting area Temporarily place the bracket assembly in the cassette(Figure 9) note where the bracket bottom flange touches the cassette bottom. Remove the bracket and thoroughly clean the area with the alcohol wipes. Screws Clean area with alcohol Figure 9 12.0 Install Bracket Assembly Remove the release paper from bracket flange and install the bracket making sure that the bracket assembly clears the green latching mechanism on the front of the cassette.
13.0 Install Spray Bar Assembly (Figure 10) Clean the area under the aluminum currency guides with alcohol. Remove the release paper from the spray bar bracket. Connect the ink delivery tube (on the spray bar) to the quick-connect elbow fitting on the ink block. Make sure that the tube is fully inserted and locked into the fitting. Rotate the spray bar bracket legs around the aluminum currency guides and position the spray bar on the bottom of the cassette and firmly push down to seat.
Appendix I Octopus Installation Instructions for the NCR Cassette Page I1
INFORMATION TO THE USER Tools Required The following tools(not included in the installation kit) may be required to install the Octopus ATM Defense system: •Hand Grinder (Dremel™ Type) with cutoff saw, rotary file and ground burs.
1.0 Introduction Prior to bracket installation, the NCR Cassette must be modified to accept the Octopus ATM Defense System. The procedure includes trimming and cutting several existing cassette components. 2.0 Modify cover Remove the cover from the cassette. Remove the top currency guides and trim-off the FRONT portion of each to make the rails 265mm long (Figure 1). 265mm Figure 1 FRONT Referring to Figure 2, trim the outside edge of the rail identified to make the rail 37mm wide.
Remove enough of the center raised boss (Figure 2) until the boss is lower that the surrounding raised rib. Reinstall top rail guides, this completes the cover modification. 3.0 Modify bottom guide Remove the two, green, guide securing screws. Remove the right bottom currency guide and cut away 47mm of the front vertical portion flush with the horizontal portion (Figure 3). Figure 3 47mm Remove Remove Reinstall the currency guides, do not reinstall green securing screws. 4.
5.0 Install Side Securing Pad Place the Octopus bracket in the cassette with the forward slotted holes centered over the 5mm tapped holes in the bottom (Figure 5). Figure 5 With the bracket aligned with the tapped holes, and making sure that the bracket is horizontal, place a mark on the cassette wall centered on the slotted hole in the bracket side under the spray bar (Figure 6).
Remove the bracket, remove the release paper from the securing pad and install with the hole centered over the marked dot on the cassette wall (Figure 7). Figure 7 6.0 Prepare Bracket for Installation Prepare the bracket and ink delivery system by removing the four nuts and the CSU plastic cover. Locate J3 (Firing circuit) and J4 (Power). Remove the red shunts and replace, bridging the two posts on each connector (Figure 8). Replace the plastic cover and securing nuts.
7.0 Install Bracket Assembly Place the bracket in the cassette and install the two 5mm mounting screws through the slotted holes in the bracket front. Make sure that the bracket is adjusted to the left, touching the securing pad. Tighten the screws (Figure 9). Figure 9 Using the 10-32 screw, attach the bracket to mounted securing pad (Figure 10).
8.0 Check Fit Close and open the lid several times to make sure that there is no mechanical interference. 9.0 Test Electronics Test the CSU electronics by depressing and releasing SW9 (Figure 8). One beep indicates that the CSU is fully functional. Two beeps indicates a failure and requires troubleshooting. Recheck cable connections and shunt connections (Section 6.0).
Appendix J Mode Jumper Selection On both the MCU and CSU two of jumpers provided to allow for selecting mode of operation. Addressed first is the H/V jumper. These jumpers are currently not populated. If the H/V jumper is installed the unit must be placed horizontal with electronics facing downwards ! There are two other jumpers for selecting operating mode. On the MCU these jumpers are J25 and J26. On the CSU these jumpers are J13 and J14.
Appendix T TEST MODE I. Definitions: Switch Terminal Markings Normally Open, NO or N/O: When the switch is not in an active state (plunger not depressed, switch not thrown, spring not tensioned). The resistance between the common terminal and the NO terminal, when measured with an Ohm-meter should be open. Normally Closed, NC or N/C: When the switch is not in an active state (plunger not depressed, switch not thrown, spring not tensioned).
12. Pressing the POST button while in Test mode releases the unit from test mode. Procedure: Cassette staining units should be complete and MCU position testing complete per installation instructions. 1. Insure that all cassette staining units have their ink blocks disconnected. The ink block wiring must be replaced with a shorting shunt that was provided when the unit shipped. Without the shorting bars the CSUs will not pass self-test ! 2. Install all used sensor inputs to MCU.
3. Activate or select function for onboard sensors. ON BOARD SENSOR Light Sensor Tilt Sensor Thermal Sensor Motion Sensor Canadian Not placed Not placed U.S. Required Required Brazil Required Function selected by jumper on J2 Required Built in Built in Built in Required Required Required Built in Built in Built in Optional Function selected by jumper on J24. The default condition is motion enabled. Optional Function selected by jumper on J24.
Priority 1 LED Code 1101 HEX 0xD Active Sensor Detected ATM_DOOR 2 1100 0xC 3 1110 0xE Generic NC input 2 (Terminal Block Only) Generic NO input 2 4 1011 0xB Generic NO input 1 5 0101 0x5 All Safe Signal 6 1111 0xF Manual Fire 7 1001 0x9 Generic NC input 1 8 1010 0xA Power Loss Table 3. Test Mode LED Display Table. = Red LED on, = Red LED off , 9. = Green LED on, and Expected Input w/ system deactivated. Normally Open contact input from door switch.
II. 1. 2. 3. 4. 5. General CSU Test Mode Operation. Place unit in Test mode by holding the POST button while powering the unit. If unit is tilted beyond 50 degrees for 2 seconds it will beep 1 time. If the squib jumper is not shorted or the Disable Squib jumper is not placed, the unit will beep 2 times. If there is a transition of light (dark to light, or light to dark) the unit will beep 3 times (if light sensor is installed and active).
4. If all sensors are correctly configured (and the unit is in the correct orientation) the unit will do nothing. TEST MODE LASTS FOR 10 MINUTES. If during the test the red LED stops blinking, you must remove the cover, and hold the Press-To-Test-Button while removing/re-installing the power jumper. The system is wants to see the default STANDBY Mode conditions. • • • • Light sensor enabled with light detected or disabled. Squib wire shorted and Disable Squib jumper installed.
TEST MODE STANDBY MODE N T5 10 BEEPS DOOR SECURE ? Y POWER LOSS ? Y ARMED MODE BLINK RED LED N T1 T4 PRESS TO TEST ? Y N 10 MINUTE TIMEOUT ? N N TILT VERIFIED ? Y NC_1 CLOSED ? 1 BEEP/SEC N Y LED CODE “1100” N MOTION TRIGGERED ? T2 LED CODE “1100” Y MAN_FIRE OPEN ? Y 2 BEEPS ALL_SAFE SIGNAL ? Y 3 BEEPS LED CODE “1100” N LIGHT TRANSITION ? Y N LED CODE “1100” N THERMAL VERIFIED ? Y NO_1 OPEN ? 5 BEEPS N Y LED CODE “1100” N DOOR CLOSED ? N NC_2 CLOSED ? Y LED C