FCC ID: PM7-DCMI2001 Access control panel interface module

PPPRRREEELLLIIIMMMIIINNNAAARRRYYY INSTALLATION INSTRUCTIONS OPTIONAL REMOTE ANTENNA MODULES

(RAM) Includes Installation Instructions for:

ANT-REMOTE & ANT-6DB-FLAT 3820 Stern Avenue St. Charles, IL 60174 Phone: 630-762-4450 Fax: 630-762-4455 P/N: M053-xxx-x001 INSTALLATION INSTRUCTIONS Optional Remote Antenna Modules (RAMs) NOTE: These instructions are for installing an optional Remote Antenna Module (RAM), an accessory of a Wyreless Access System. Table of Contents 4. 3. 1. Wyreless AccessTM System Components............................................................................................................3 1.1 Overview .......................................................................................................................................................3 1.2 Optional Remote Antenna Module (RAM) Components ..............................................................................4 2. Safety, Grounding, & Lightning Considerations ..............................................................................................7 2.1 Safety.............................................................................................................................................................7 2.2 Antenna Grounding .......................................................................................................................................7 2.3 Lightning Protection Consideration...............................................................................................................7 Installing the ANT-REMOTE ............................................................................................................................8 3.1 Tools Required ..............................................................................................................................................8 3.2 Determining the Best ANT-REMOTE Location ...........................................................................................8 3.3 Mounting the ANT-REMOTE.......................................................................................................................9 3.4 Connecting the ANT-REMOTE Coax...........................................................................................................9 Installing the ANT-6DB-FLAT.........................................................................................................................10 4.1 Tools Required ............................................................................................................................................10 4.2 Determining the Best ANT-6DB-FLAT Location.......................................................................................10 4.3 Mounting the ANT-6DB-FLAT ..................................................................................................................12 4.4 Connecting the ANT-6DB-FLAT Coax ......................................................................................................14 5. Connecting the Coax..........................................................................................................................................15 5.1 Grounding & Lightning Protection Consideration.......................................................................................15 5.2 Routing the Coax .........................................................................................................................................15 5.3 Dressing the Coax........................................................................................................................................17 5.4 Terminating the Coax at the RAM...............................................................................................................17 5.5 Terminating the Coax at the PIM or WRI ...................................................................................................17 5.6 Connecting Coax to a PIM or PIME............................................................................................................17 5.7 Connecting Coax to a WRI..........................................................................................................................22 6. FCC Compliance & Warnings..........................................................................................................................27 6.1 FCC Compliance .........................................................................................................................................27 6.2 Warnings......................................................................................................................................................27 7. Contacting Recognition Source ........................................................................................................................28 8. Revision History.................................................................................................................................................29 P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 2 of 29 1. Wyreless AccessTM System Components 1.1 Overview Every access control system that uses Wyreless AccessTM contains two different types of modules (Figure 1-1):

at least one Wyreless Panel Interface Module (WPIM), and at least one Wyreless Access Point Module (WAPM) Figure 1-1 Wyreless Access System Block Diagram Recognition Sources product line contains several different expressions of each module. The WPIM is wired to the access control panel and ideally is installed very close to the access control panel. The WPIMs installation location is determined by the location of the WAPMs with which it will communicate using RF. The WAPM is installed at the access point where access will be controlled and/or monitored. Depending on the application and which WAPM is used, some wiring at the access control point may be required. Regardless of which WPIM or WAPM module is used, the communication link between the WPIM and WAPM is always RF. This manual describes the installation of three different optional Remote Antenna Modules which can be an accessory of either a WPIM or a WAPM. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 3 of 29 1.2 Optional Remote Antenna Module (RAM) Components & Accessories All Wireless Panel Interface Modules (WPIMs) and all Wireless Access Point Modules (WAPMs) contain either an internal or attached antenna. There are two major reasons why an optional antenna might be used:

To remote the antenna from the Wyreless Access Module location so that the Wyreless Access Module can be located in more serviceable and/or secure area. To increase the RF range by using a directional antenna that provides RF gain. Several Wyreless Access Modules have the option of using an optional antenna, see Table 1-3. Recognition Source offers three different optional antennae (Table 1-1). Any optional antenna can be used on any Wyreless Access Module that will accept an optional antenna. Various antenna accessories are also available (Table 1-2). Antenna Type Model Number Picture Remote ANT-Remote Directional Panel ANT-6DB-FLAT Beamwidth @ Power RF Gain

(dB) Horizontal Vertical 0 6 360o 360o 90o 60o Table 1-1 Optional Antennae P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 4 of 29 Accessory Supplier Model Number Picture Lightning Protection Kit Recognition Source ANT-LPK Adjustable Articulating Mounting Bracket for ANT-6DB-FLAT Adjustable Mast Mounting Bracket for ANT-6DB-

FLAT Recognition Source or Maxrad ANT-FLAT-BRACKET or MPAB3 Maxrad MPAB4 Grounding Block Maxrad MGB Surge Protection Filter PolyPhaser DSXL-MA Weatherseal Tape McMaster-Carr 76385A15 5, 50 ohm, low loss coax, type N male connectors on both ends 15, 50 ohm, low loss cable, type N male connector on one end, dressed bare wires on the other end Maxrad MCA195NMNM/5ft Recognition Source A771-008-001 Table 1-2 - Remote Antenna Accessories P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 5 of 29 Optional ANT-

REMOTE ANT-

6DB-FLAT Standard Internal or Attached Antenna Wyreless Access Product PIM-OTD PIME-OTD PIM-OTD-485 WRI-100-OTD MIRL WPR WISI WUSI WCM Table 1-3 Wyreless Access Products Antenna Options P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 6 of 29 2. Safety, Grounding, & Lightning Considerations WARNING: Make certain that the Coax installation conforms to all electrical codes (national and local) regarding grounding and lightning protection requirements. PolyPhasers Technical Information section of their web site

(www.polyphaser.com ) contains excellent information about grounding and lightning protection. 2.1 Safety An outside antenna system should not be located in the vicinity of overhead power lines or other electric light or power circuits, or where it can fall into such power lines or circuits. When installing an outside antenna system, extreme care should be taken to keep from touching such power lines or circuits as contact with them might be fatal 2.2 Antenna Grounding The National Electrical Code (NEC) requires that every antenna installation be grounded. Also many areas have local antenna-grounding codes. Be sure that you are familiar with all of the grounding and other antenna regulations in your area. Antenna grounding includes mast grounding and coax grounding. Make sure the antenna is grounded so as to provide some protection against voltage surges and built up static charges. Section 810 of the National Electrical Code, ANSI/NFPA No.70-1984, provides information with respect to proper grounding of the mast and supporting structure, grounding of the lead-

in wire to an antenna discharge unit, size of grounding conductors, location of antenna discharge unit, connection to grounding electrodes, and requirements for the grounding electrode. A grounding block compatible with all Recognition Source Remote Antennae is available as an accessory, see Table 1-2, on page 5 above. PolyPhasers Technical Information section of their web site (www.polyphaser.com ) contains excellent information about grounding. 2.3 Lightning Protection Consideration Where lightning protection is a concern, a lightning protection device must be installed in series with the coax and mounted at the antenna end of the coax cable. A lightning protection device (surge protection filter) compatible with all Recognition Source Remote Antennae is available as an accessory, see Table 1-2, on page 5 above. Install one of these devices at the antenna per PolyPhasers instructions including weatherization requirements. PolyPhasers Technical Information section of their web site (www.polyphaser.com ) contains excellent information about lightning protection. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 7 of 29 3. Installing the ANT-REMOTE WARNING: You can be seriously or fatally injured if this antenna comes in contact with electric power lines or is brought in proximity with a high voltage electrical field. For your own safety, use extreme caution when installing this antenna. Keep away from power lines!

The ANT-REMOTE can be used with on all OTD versions of a Panel Interface Module (PIM-OTD, PIME-OTD, or PIM-OTD-485) or Wireless Reader Interface (WRI-100-OTD) (Table 1-3). NOTE: The ANT-REMOTE can only be installed on a PIM-OTD, PIME-OTD, PIM-OTD-485, or WRI-100-OTD. 3.1 Tools Required 9/32 drill bit & drill Hammer Flat and Phillips head screwdrivers (1/8 wide flat blade for screw terminals) Pencil ANT-REMOTE Mounting Kit (K381-000-001), provided, including four zinc, pan head Phillips, 8-18 X 1 sheet metal screws, four #8 flat washers, and four heavy-duty anchors 3.2 Determining the Best ANT-REMOTE Location The ANT-REMOTE must be mounted within 15 cable feet of the PIM or WRI. If the ANT-REMOTE is used with a PIM-OTD, PIME-OTD, or PIM-OTD-485, then the ANT-

REMOTE should be located so that it has the best line of sight path with all the WAPMs that will be linked to the PIM. If the ANT-REMOTE is used with a WRI-100-OTD, the ANT-REMOTE should be located so that it has the best line of sight path with the WPIM to which it will be linked. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 8 of 29 3.3 Mounting the ANT-REMOTE 3.3.1 Remove the ANT-REMOTE enclosure cover (Figure 3-1). Figure 3-1 ANT-REMOTE with Cover Removed 3.3.2 Place the ANT-REMOTE (cover removed) against the surface where it is to be mounted. 3.3.3 Using ANT-REMOTE enclosure as a template, mark the four corner mounting holes. 3.3.4 Drill a 9/32 hole in the surface at each mounting mark, 1 deep. 3.3.5 Insert the four anchors provided firmly into the holes so they are flush with the surface. 3.3.6 Fasten the ANT-REMOTE enclosure to the mounting surface using the screws & washers provided. 3.3.7 Replace the ANT-REMOTE enclosure cover. 3.4 Connecting the ANT-REMOTE Coax For instructions on how to connect the ANT-REMOTE Coax to the PIM or WRI, proceed to section 5, page 15. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 9 of 29 4. Installing the ANT-6DB-FLAT WARNING: You can be seriously or fatally injured if this antenna comes in contact with electric power lines or is brought in proximity with a high voltage electrical field. For your own safety, use extreme caution when installing this antenna. Keep away from power lines!

The ANT-6DB-FLAT can be used with on all OTD versions of a Panel Interface Module (PIM-OTD, PIME-OTD, or PIM-OTD-485) or Wireless Reader Interface (WRI-100-OTD) (Table 1-3). NOTE: The ANT-6DB-FLAT can only be installed on a PIM-OTD, PIME-OTD, PIM-OTD-485, or WRI-100-OTD. 9/32 drill bit & drill 4.1 Tools Required Hammer Flat and Phillips head screwdrivers (1/8 wide flat blade for screw terminals) Pencil RAM Mounting Kit (K381-000-001), provided, including four zinc, pan head Phillips, 8-18 X 7/16 wrench: adjustable, box, or open end 1 sheet metal screws, four #8 flat washers, and four heavy-duty anchors 4.2 Determining the Best ANT-6DB-FLAT Location The ANT-6DB-FLAT must be mounted within 15 cable feet of the PIM or WRI. If the ANT-6DB-FLAT is used with a PIM-OTD, PIME-OTD, or PIM-OTD-485, then ANT-6DB-FLAT should be located so that it has the best line of sight path with all the WAPMs that will be linked to the PIM. If the ANT-6DB-FLAT is used with a WRI-100-OTD, the ANT-6DB-FLAT should be located so that it has the best line of sight path with the WPIM to which it will be linked. Since the ANT-6DB-FLAT is a directional antenna, the mounting location and orientation is very important:

P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 10 of 29 The ANT-6DB-FLAT should be mounted and oriented so that the Flat Front is perpendicular to the target antenna and that the Coax Cable exits at the bottom (a vertical polarization arrow is on the back). (Figure 4-1 & Figure 4-2). Figure 4-1 ANT-6DB-FLAT Mounting Orientation P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 11 of 29 For optimum performance the ANT-6DB-FLAT should be oriented so that its vertical and horizontal centerlines intersect the target antenna (Figure 4-2). The ANT-6DB-FLAT has 3 dB horizontal beamwidth of 72 o and 3 dB vertical beamwidth of 57o. Figure 4-2 - ANT-6DB-FLAT RF Radiation Pattern 4.3 Mounting the ANT-6DB-FLAT The ANT-6DB-FLAT comes with two mounting kits: a clamp set for mounting to masts up to 1-1/2 in diameter and a screw and anchor kit for flat surface mounting. Two other mounting options, an articulating mounting kit and an adjustable mast mounting kit are available as accessories, see Table 1-2, on page 5 above.. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 12 of 29 4.3.1 Mast Mounting 4.3.1.1 Install the 3 bolts in the top mounting holes from the front side of the ANT-6DB-FLAT. Secure the bolts using lock washers and nuts. Install half of a clamp over the bolts from the back side of the ANT-6DB-FLAT. Making certain that the V portion of the half clamp is pointing away from the ANT-6DB-FLAT. (Figure 4-3) NOTE: Only tighten the nuts enough to firmly fasten the bolts to the ANT-6DB-FLAT. Over tightening will deform the ANT-6DB-FLAT and may affect performance. Figure 4-3 Mast Mounting Clamp Install 4.3.1.2 Repeat step 4.3.1.1 to install half of a clamp to the bottom mounting holes of the ANT-6DB-

FLAT. 4.3.1.3 Position the ANT-6DB-FLAT on the mast. (Figure 4-3) 4.3.1.4 Install the other half of a clamp on the back side of the mast at the top mounting position lock washers and nuts. Make certain that the V portion of the half clamp is pointing toward the mast. (Figure 4-3) 4.3.1.5 Repeat step 4.3.1.4 to install half of a clamp to the bottom mounting position of the ANT-6DB-

FLAT. 4.3.2 Flat Surface Mounting 4.3.2.1 Place the ANT-6DB-FLAT against the surface where it is to be mounted. 4.3.2.2 Using ANT-6DB-FLAT enclosure as a template, mark the four mounting holes. 4.3.2.3 Drill a 9/32 hole in the surface at each mounting mark, 1 deep. 4.3.2.4 Insert the four anchors provided firmly into the holes so they are flush with the surface. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 13 of 29 4.3.2.5 Fasten the ANT-6DB-FLAT enclosure to the mounting surface using the screws & washers provided. 4.4 Connecting the ANT-6DB-FLAT Coax For instructions on how to connect the ANT-6DB-FLAT Coax to the PIM or WRI, proceed to section 5, page 15. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 14 of 29 5. Connecting the Coax All RAMs come with a 15 coax. One end of the coax is terminated with a male N connector, the other end is terminated as shown in Figure 5-5. Note: Earlier versions of the ANT-REMOTE had the coax already connected to the antenna eliminating the male N connector. 5.1 Grounding & Lightning Protection Consideration WARNING: Make certain that the Coax installation conforms to all electrical codes (national and local) regarding grounding and lightning protection requirements. PolyPhasers Technical Information section of their web site (www.polyphaser.com ) contains excellent information about grounding and lightning protection. Refer to section 2, page 7, above If the remote antenna will be used indoors then grounding and lightning protection may not be needed, consult local codes. Grounding and lightning protection components compatible with all Recognition Source Remote Antennae are available accessories, see Table 1-2, on page 5 above Figure 5-1 & Figure 5-2 show the recommended connections for each antenna when no grounding and no lightning protection are required. Figure 5-3 & Figure 5-4 show the recommended connections for each antenna when grounding and lightning protection are required. NOTE: When using a Grounding Block, it must be electrically connected to an earth ground that meets local code requirements. Refer to the grounding block manufacturers instructions for further information. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 15 of 29 Figure 5-1 - ANT-REMOTE No Protection Figure 5-2 - ANY-6DB-FLAT No Protection Figure 5-3 - ANT-REMOTE Recommended Protection Figure 5-4 - ANT-6dB-FLAT Recommended Protection P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 16 of 29 5.2 Weatherproofing Coax Connections The Lightning Protection Kit (ANT-LPK) includes weatherseal tape that must be used on all coax connections that are exposed to weather. 5.3 Routing the Coax The RAMs Coax is suitable for outdoor and aerial installations. Route the RAMs Coax so that there are a minimum number of bends. When the RAMs Coax must bend, make certain that the bends radius is greater than 2. 5.4 Dressing the Coax NOTE: The RAM is supplied with a proper termination at the end of the 15 Coax (Figure 5-5). Use the Coax as supplied. DO NOT CUT COAX TO LENGTH!

Dress excess coax in a coil no less than 8 in diameter. NOTE: Do not place the excess coax inside the RAM, PIM, or WRI enclosure. 5.5 Terminating the Coax at the RAM 5.5.1 If used, mount a lightning protection device (section 5.1) directly to the female N connector on the antenna. 5.5.2 Connect the male N connector end of the coax to the female N connector of the lightning protection device (if used) or antenna. 5.5.3 Make certain that all the N connectors are tightly fastened. Loose connections will affect performance 5.5.4 If required, weatherize the lightning protection device. 5.6 Terminating the Coax at the PIM or WRI NOTE: The RAM is supplied with a proper termination at the end of the 15 Coax (Figure 5-5). Use the Coax as supplied. DO NOT CUT COAX TO LENGTH!

Figure 5-5 Factory Supplied Coax Termination at PIM or WRI 5.7 Connecting Coax to a PIM or PIME The following basic installation procedure applies to installing a RAM on a PIM-OTD or a PIME-OTD. The PIM-OTD PCB is located on the left side of the PIM-OTD enclosure and the PIME-OTD PCB is located on the right side of the PIM-OTD enclosure. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

(630) 762-4450

(630) 762-4444 fax Page 17 of 29 Figure 5-6 PIM & PIME with RAMs Installed 5.7.1 Remove the PIM PCB from the PIM-OTD enclosure by removing the four screws, one in each corner of the PIM PCB back plate (Figure 5-7). Figure 5-7 Removing PIM PCB 5.7.2 Remove the PIMs internal C antenna by loosening the screw on the Antenna Terminal Block and gently pulling the antenna out of the Antenna Retainer (Figure 5-8). Note: Some PIM internal C antennae may also be secured with RTV adhesive. This adhesive can be easily broken free from the back plate with a little twisting. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 18 of 29 Figure 5-8 Removing the PIMs Internal C Antenna 5.7.3 Drill a hole in the top of the PIM-OTD enclosure (Figure 5-9). NOTE: Drill hole #1 for a PIM-OTD, hole #2 for a PIME-OTD. Figure 5-9 PIM-OTD Antenna Hole Locations P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 19 of 29 5.7.4 Replace the PIM PCB in the PIM-OTD enclosure (Figure 5-7). 5.7.5 Remove the nut and washer (if provided) from the NEMA gland (Figure 5-11). Discard the waher. Figure 5-10 NEMA Gland with Nut & Washer Removed 5.7.6 Install the NEMA gland in the hole drilled in step 5.7.3. Tighten the gland by turning the nut inside the enclosure. Do not tighten the gland by turning the gland while holding the nut. There is an O ring on the gland that will not seat properly if the gland is rotated (Figure 5-11). Figure 5-11 Installing the RAM Coax in the PIM P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 20 of 29 5.7.7 Attach the Remote Antenna Coax to the PIM PCB Antenna Terminal Block (Figure 5-12). NOTE: Make certain that the Outer Coax Conductor (silver color) goes in the leftmost terminal of PIM PCB Antenna Terminal Block and that the Center Coax Conductor (copper color) goes in the rightmost terminal. Figure 5-12 PIM PCB Antenna Terminal Block Connections 5.7.8 Secure the Remote Antenna Coax in the NEMA gland (Figure 5-13). Figure 5-13 Securing the PIMs Antenna NEMA Gland P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 21 of 29 5.8 Connecting Coax to a WRI 5.8.1 Remove the WRI PCB from the WRI-OTD enclosure by removing the four screws, one in each corner of the PIM PCB back plate (Figure 5-14). Figure 5-14 Removing the WRI PCB 5.8.2 Remove the WRIs internal C antenna by loosening the screw on the Antenna Terminal Block and gently pulling the antenna out of the Antenna Retainer. Note: Some PIM internal C antennae may also be secured with RTV adhesive. This adhesive can be easily broken free from the back plate with a little twisting. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 22 of 29 Figure 5-15 Removing the WRIs Internal C Antenna 5.8.3 Drill a hole in the top of the WRI-OTD enclosure (Figure 5-16). Figure 5-16 WRI -OTD Antenna Hole Locations P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 23 of 29 5.8.4 Replace the WRI PCB in the WRI-OTD enclosure (Figure 5-17). 5.8.5 Remove the nut and washer (if provided) from the NEMA gland (Figure 5-18). Discard the washer. Figure 5-17 Replacing the WRIs PCB Figure 5-18 NEMA Gland with Nut & Washer Removed P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 24 of 29 5.8.6 Install the NEMA gland in the hole drilled in step 5.8.3. Tighten the gland by turning the nut inside the enclosure. Do not tighten the gland by turning the gland while holding the nut. There is an O ring on the gland that will not seat properly if the gland is rotated (Figure 5-19). Figure 5-19 Installing the RAM Coax in the WRI 5.8.7 Attach the Remote Antenna Coax to the WRI PCB Antenna Terminal Block (Figure 5-20). NOTE: Make certain that the Center Coax Conductor (copper color) goes in the leftmost terminal of WRI PCB Antenna Terminal Block and that the Outer Coax Conductor (silver color) goes in the rightmost terminal. Figure 5-20 WRI PCB Antenna Terminal Block Connections P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 25 of 29 5.8.8 Secure the Remote Antenna Coax in the NEMA gland (Figure 5-21). Figure 5-21 Securing the WRIs Antenna NEMA Gland This completes the Remote Antenna Module Installation. Refer to the Configuring & Operating a Wyreless Access System manual to test the installation. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 26 of 29 6. FCC Compliance & Warnings 6.1 FCC Compliance This device has been authorized by the FCC Rules and Industry Canada. This device complies with the limits for a Class B digital device and a Class B intentional radiator, pursuant to Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) This device may cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The Wyreless Access System Component must be installed by qualified professionals or contractors in accordance with FCC part 15.203, Antenna Requirements. Do not use any antenna other than the one provided with the unit. 6.2 Warnings RF Exposure - To comply with FCC RF exposure requirements for mobile transmitting devices this transmitter should only be used or installed at locations where there is normally at least a 20 cm separation between the antenna and all persons. Do not co-locate and operate in conjunction with any other antenna or transmitter. Changes or modifications not expressly approved by Recognition Source could void the users authority to operate the equipment. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 27 of 29 For questions regarding Wyreless Access :

7. Contacting Recognition Source

(630) 762-4450

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(630) 762-4444 fax Page 28 of 29 8. Revision History Version X001 Date 12/05/03 Changes preliminary in house release for comments P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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PPPRRREEELLLIIIMMMIIINNNAAARRRYYY INSTALLATION INSTRUCTIONS PANEL INTERFACE MODULE

(PIM) Includes Installation Instructions for:

PIM, PIM-OTD, PIME, PIME-OTD, & PIM-OTD-485 3820 Stern Avenue St. Charles, IL 60174 Phone: 630-762-4450 Fax: 630-762-4455 P/N: M053-xxx-x001 Recognition Source, LLC 3820 Stern Avenue St Charles, IL 60174

(630) 762-4450

(630) 762-4455 Fax Copyright 2003 Recognition Source, LLC, all rights reserved. No part of this document can be reproduced, transmitted, or transcribed in any form by electrical, mechanical, optical, manual, or otherwise without the prior written consent of Recognition Source. Recognition Source reserves the right to alter or revise the content of this document as needed to support future product revisions, without obligation to notify any persons of specific changes. The use of trademarks, trade names, or other product identification is solely for reference purposes. All other product brand names are trademarks or registered trademarks of their respective holders. Recognition Source believes the information in this document to be accurate and reliable. Recognition Source does not guarantee results from the use of this information. Recognition Source assumes no responsibility, obligation, or liability for the information presented in this document. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 2 of 26 INSTALLATION INSTRUCTIONS Wyreless Access Panel Interface Module (PIM) NOTE: These instructions are for installing the Panel Interface Module (PIM), a component of a Wyreless Access System. After completing this installation refer to the Configuring and Operating the Wyreless Access System manual. Table of Contents 3. 1. Wyreless AccessTM System Components.................................................................................................................4 1.1 Overview...............................................................................................................................................................4 1.2 Panel Interface Module (PIM) Components & Sales Models ...........................................................................5 2. Determining the Best PIM Location........................................................................................................................7 2.1 PIM Location Guidelines.....................................................................................................................................7 2.2 Pre-installation Wyreless Access Test...........................................................................................................7 Installing the Panel Interface Module (PIM)..........................................................................................................9 3.1 How to determine the version of PIM PCB........................................................................................................9 3.2 PIM PCB Functional Components................................................................................................................... 11 3.3 Tools Hardware Required.............................................................................................................................. 12 3.4 Mounting the PIM ............................................................................................................................................. 13 3.5 Installing the Antenna ....................................................................................................................................... 14 3.6 Connecting the RS232 PIM PCB to the Access Control Panel...................................................................... 15 3.7 Connecting the RS485 PIM PCB to the Access Control Panel...................................................................... 18 Installing a Panel Interface Module Extender.................................................................................................... 21 Installing an Extender in a PIM Enclosure ...................................................................................................... 21 4.1 4.2 Installing an Extender in a PIM-OTD Enclosure ............................................................................................ 21 5. PIM/PIME Cable/Wire Specifications.................................................................................................................. 23 6. Contacting Recognition Source.............................................................................................................................. 24 7. FCC/UL Compliance & Warnings........................................................................................................................ 25 7.1 FCC Compliance............................................................................................................................................... 25 7.2 UL Compliance.................................................................................................................................................. 25 7.3 Warnings ............................................................................................................................................................ 25 8. Revision History....................................................................................................................................................... 26 4. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 3 of 26 1. Wyreless AccessTM System Components 1.1 Overview Every access control system that uses Wyreless AccessTM contains two different types of modules (Figure 1-1):

at least one Wyreless Panel Interface Module (WPIM), and at least one Wyreless Access Point Module (WAPM) Access Control Panel Wired Communication Wyreless Panel Interface Module

(WPIM) RF Communication Wyreless Access Point Module

(WAPM) Wired Communication Access Point Access Control Panel Location Access Point Location Figure 1-1 Wyreless Access System Block Diagram Recognition Sources product line contains several different expressions of each module. The WPIMs are wired to access control panels and usually are installed very close to the access control panels. The WPIMs installation locations are determined by the location of the WAPMs with which they will communicate using RF. The WAPMs are installed at access points where access will be controlled and/or monitored. Depending on the application and which WAPM is used, some wiring at the access point may be required. Regardless of which WPIM or WAPM module is used, the communication link between the WPIM and WAPM is always RF. This manual describes the installation of a Panel Interface Module (PIM) or a Panel Interface Module Expander (PIME), both of which are WPIMs P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 4 of 26 1.2 Panel Interface Module (PIM) Components & Sales Models The PIM is the wireless interface to an access control panel. The PIM can be ordered with one of two possible enclosures: PIM or PIM-OTD. Table 1-1 shows these two models, what PIM Expander, and what antenna each uses. Sales Model PIM PIM-OTD Closed Enclosure Opened Enclosure Expander PIME Antenna whip only PIME-OTD internal c Table 1-1 PIM Enclosure Variations P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 5 of 26 MODEL ENCLOSURE MAXIMUM NUMBER OF WAPMs LOCATION ACCESS CONTROL PANEL INTERFACE/DESCRIPTION PIM PIM-OTD PIM-OTD-485 PIME PIME-OTD plastic plastic plastic n/a n/a 2 2 16 2 2 indoor indoor indoor indoor indoor Table 1-2- PIM Sales Model Table Magnetic (clock & data) or Wiegand (data1/data0) Magnetic (clock & data) or Wiegand (data1/data0) RS485 Magnetic (clock & data) or Wiegand (data1/data0) Magnetic (clock & data) or Wiegand (data1/data0) P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 6 of 26 2. Determining the Best PIM Location It is important to determine the best mounting location for the PIM to insure that reliable RF communications between the PIM and its WAPMs can be achieved. Please refer to the WAPM installation manual for determining the best location for the WAPM. 2.1 PIM Location Guidelines NOTE: A WAPM located with a substantial steel barrier intervening between it and the PIM may require alternate PIM placement in order to ensure reliable RF communications. In these applications, mount the PIM remote from the access control panel. Choose the PIM location to prevent shadowing of the WAPM from PIM radio transmissions. 2.1.1 If the PIM and WAPM are to be used in a line of sight application (i.e. the PIM antenna can visually see the WAPM antenna with no obstructions), then the maximum distance between the PIM and WAPM is 1000. If the WAPM is an IRL, then the maximum distance is 600. 2.1.2 If the PIM and WAPM are to be used in a building using normal construction, then the maximum distance between the PIM and WAPM is 200 horizontally. 2.1.3 Always try to install the PIM on the same floor of a building as the WAPMs it controls. 2.1.4 If WAPM(s) are on another floor of a building (one floor up or down), cut the range by 100 feet for each floor away from the PIM. 2.1.5 Never install the PIM more than 1 floor away from its WAPMs. 2.1.6 Never install the PIM in an all cinder block, concrete or metal room. 2.1.7 If possible, install the PIM halfway between all the WAPMs it will control and never more than 200 feet away from any. Remember to include the WAPMs that will be controlled by a PIME, if one is used. 2.1.8 Always mount the PIM so the antenna is vertical for best performance. 2.1.9 Install the PIM as far above the floor as possible, 6 feet is usually optimum for operation and maintenance. 2.1.10 If possible, mount the PIM so that is there are the minimum number of obstacles between the antennas of the PIM and the WAPM. 2.1.11 Line-of-sight means no obstructions ever. If obstructions like moving vehicles can block the line-of-

sight, even if for very short times, reduce the specified range in half. 2.1.12 A PIM must, in all directions (sides, top, bottom, and back), have a minimum 3 separation from any metal surface. Therefore if the PIM must be mounted on a metal surface, though not recommended, a user supplied 3 non-metallic spacer (i.e. wood) must be provided. A PIM-OTD must, in all directions (sides, top, bottom, and back), have a minimum 1 separation from any metal surface. Therefore if the PIM-OTD must be mounted on a metal surface, though not recommended, the supplied 1 spacer kit (K384-003-001) must be used. 2.2 Pre-installation Wyreless Access Test Once the best locations for the PIM and WAPM(s) have been determined, use this procedure to check performance prior to installation:

2.2.1 As close as possible to its exact mounting location, temporarily mount the WAPM to the access control point (i.e. a door, a gate, an elevator). Do not connect battery pack yet. 2.2.2 Temporarily mount PIM in the exact location and orientation it is intended to be mounted. 2.2.3 Install the PIM antenna as indicated in Section 3.5. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 7 of 26 2.2.4 Power the PIM temporarily with a 12-volt battery capable of delivering 300 mA by connecting it to J1 positive left, negative right (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). 2.2.5 Put the PIM into Link Mode (S1 or S2) for the WAPM (A or B) being tested (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). 2.2.6 Go to the access control point being tested. Make sure the access control point is in its secure state

(i.e. closed). Connect battery. Verify that linking has occurred. Successful linking is indicated at the WAPM by the green LED flashing and optionally by an internal sounder beeping. The number of green flashes and audible beeps should be the same as the channel number that the PIM is set to. This linking process can take from 20-60 seconds to complete. 2.2.7 If linking occurred successfully, link second WAPM similarly, then proceed with installing the WAPM(s) and PIM. 2.2.8 If linking does not occur successfully, move the PIM 6-10 inches in any convenient direction (up, down, sideways) and repeat until all WAPMs link successfully. Once the linking is successful, then proceed with installing the WAPMs and PIM. 2.2.9 If still not successful, change channels and repeat or move PIM closer to the WAPMs and repeat. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 8 of 26 3. Installing the Panel Interface Module (PIM) There are two versions of the PIM printed circuit board (PCB): RS232 (Figure 3-1), and RS485 (Figure 3-2). 3.1 How to determine the version of PIM PCB The version of PIM PCB being installed can be identified by observing which connectors are installed on the PCB. Compare the board being installed toFigure 3-1, and Figure 3-2. 3.1.1 RS232 PIM PCB (Figure 3-1) If the RS232, 9-pin connector, J5, is installed and the RS485, 5-pin terminal block, J7, is missing then it is a RS232 PIM PCB 3.1.2 RS485 PIM PCB (Figure 3-2 The RS485 PIM PCB can be uniquely identified in one of two ways:

If the RS232, 9-pin connector, J5, is installed and the RS485, 5-pin terminal block, J7, is installed it is a RS485 PIM PCB If the Access Point A, 8-pin panel connector, J3 and the Access Point B, 8-pin panel connector, J4, are missing it is a RS485 PIM PCB P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 9 of 26 Figure 3-1 RS232 PIM & PIME Printed Circuit Board (PCB) P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 10 of 26 Figure 3-2 RS485 PIM & PIME Printed Circuit Board (PCB) 3.2 PIM PCB Functional Components NOTE: The components on the left side of the PIM PCB are for Access Point A (AP A) while components on the right are for Access Point B (AP B). 3.2.1 Access Control Panel Connections PIM signal wiring connections to an access control panel are accomplished using two 8-Pin Connectors. J3 is used to connect Access Point A (AP A) and J4 is used for Access Point B (AP B)

(depending on PIM PCB being used see Figure 3-1 or Figure 3-2). 3.2.2 DC Power Connection DC power is connected to the PIM via connector J1. Positive is the left pin, negative is the right pin

(depending on PIM PCB being used see Figure 3-1 or Figure 3-2). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 11 of 26 3.2.3 RS485 Connection A serial RS485 connection can be made to the PIM using connector J6. This connection is used for system configuration and future features (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about system configuration please refer to the Configuring & Operating a Wyreless Access System manual and the Configuration & Demonstration Tool (CDT) manual. 3.2.4 PIM RF Channel & Status The RF channel to be used to communicate with the Access Points is selected using a 4 position, single pole, single throw DIP switch SW7 (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). The overall status of the PIM is indicated using the green LED, CR15. For additional information about setting the RF channel and how the PIM status is displayed please refer to the Configuring & Operating a Wyreless Access System manual. 3.2.5 Access Point Link & Status A PIM/Access Point link mode process is initiated using a Link Switch, either S1 for AP A or S2 for AP B (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). The status of an Access Point is indicated using two LEDs: one for the real time status and one for trouble status. A red/green LED is used for real time status: CR9 for AP A and CR6 for AP B. A red LED is used for trouble status: CR10 for AP A and CR7 for AP B (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about Access Point linking and status please refer to the Configuring &

Operating a Wyreless Access System manual. 3.2.6 PIM Reset Switch Switch S3 is provided to reset the PIM without having to cycle power (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about the PIM Reset switch please refer to the Configuring & Operating a Wyreless Access System manual. 3.2.7 PIM Programming Connector A programming connector (J2) is provided to allow new PIM firmware versions to be installed

(depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about PIM programming, please refer to the Configuring & Operating a Wyreless Access System manual. 3.2.8 PIM Tamper Switch A tamper switch (SW1) is provided to indicate when the PIM enclosure cover is open (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about PIM tamper switch refer to the Configuring & Operating a Wyreless Access System manual. 3.3 Tools Hardware Required Hammer 9/32 drill bit Flat and Phillips head screwdrivers (1/8 wide flat blade for screw terminals) Pencil P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 12 of 26 Mounting Kit (K381-000-001), provided, including four #8 X 1 screws and four heavy-duty anchors Mounting Kit (K384-003-001), provided, including four #8 X 2 screws and four 1 round by 1 high (1 O.D. x 1) spacers 3.4 Mounting the PIM 3.4.1 PIM If installing a PIM, see Table 1-1, PIM column, use this procedure:

3.4.1.1 Remove the desired knockout with the screwdriver and hammer. 3.4.1.1.1 To remove the inner electrical metallic tubing (conduit) knockout, place screwdriver blade into inner groove and strike top of screwdriver handle with a hammer. 3.4.1.1.2 To remove the outer electrical metallic tubing (conduit), repeat the above procedure but place the screwdriver blade in the outer groove. 3.4.1.2 If the PIM is to be mounted on a metal surface, install a 3, non-metallic spacer (i.e. wood) to the metal surface first, then proceed, as described below, to fasten the PIM to the non-metallic spacer. 3.4.1.3 Place the PIM with its door opened, against the wall or against installed non-metallic spacer in the position it was successfully link tested (Section 2.2) 3.4.1.4 Using the four mounting holes in the back of the PIM housing as a template, mark these holes with a pencil. 3.4.1.5 Set the PIM down and drill the four holes with a 9/32 diameter drill bit, 1 deep. 3.4.1.6 Insert the four anchors provided firmly into the holes so they are flush with the wall or the non-

metallic spacer. 3.4.1.7 Screw in the four screws provided to attach the PIM to the wall or the non-metallic spacer. 3.4.2 PIM-OTD If installing a PIM-OTD, see Table 1-1, PIM-OTD column, use this procedure:

3.4.2.1 When using the internal C antenna with the PIM-OTD or PIME-OTD, wire routing inside the enclosure is very important. Improper wire routing will reduce the RF range. Keep the wires inside the enclosure as short as possible (i.e. do not coil an excess wire inside the enclosure).

(Figure 3-3 & Figure 3-4). Figure 3-3 Improper Wire Routing Figure 3-4 Proper Wire Routing There are dimples on the sides and bottom of the PIM-OTD enclosure indicating the only proper place to drill holes (Figure 3-5 and Figure 3-6). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 13 of 26 Figure 3-5 - PIM-OTD Dimples for Hole Drilling Figure 3-6 PIM-OTD Dimples for Hole Drilling NOTE: There are two dimples on the top of the PIM-OTD enclosure. These are for remote antenna installation and are not to be used for signal/power wiring. Using these dimples, drill hole(s) in the PIM-OTD enclosure, to accommodate the size and number of entry/exit connectors to be used. NOTE: When drilling, make certain that the drill bit does not damage any electronics inside the enclosure. Use light drill pressure so that the bit does not enter the enclosure very far when the bit breaks through the inside of the enclosure. 3.4.2.2 Place the PIM-OTD, with its cover removed, against the wall in the position it was successfully link tested (Section 2.2) 3.4.2.3 Using the four mounting holes in the corner of the PIM-OTD housing as a template, mark these holes with a pencil. 3.4.2.4 Set the PIM-OTD down and drill the four holes with a 9/32 diameter drill bit, 1 deep. 3.4.2.5 Insert the four anchors provided (kit: K381-000-001) firmly into the holes so they are basically flush with the wall. 3.4.2.6 If the PIM-OTD is to be mounted on a non-metallic surface use the #8, 1 screws provided

(kit: K381-000-001) to attach the PIM-OTD to the wall.. If the PIM-OTD is to be mounted on a metallic surface use the 1 round by 1 high (1 O.D. x 1) spacers and the #8, 2 screws provided (kit: K384-003-001) to attach the PIM-OTD 1 from the wall. 3.5 Installing the Antenna 3.5.1 Omni Whip Antenna (ANT-OMNI) Insert the straight black omni antenna, supplied with the PIM or PIME, into the hole at the top of the PIM housing and tighten the screw. Do not over tighten. 3.5.2 Internal C Antenna If the internal C antenna is to be used, then no antenna installation is required. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 14 of 26 3.6 Connecting the RS232 PIM PCB to the Access Control Panel Review the PIM Functional Components from Section 3.1 before connecting the RS232 PIM PCB to an access control panel. Caution: Disconnect the access control panels power and standby batteries while wiring the PIM to the panel. Warning! Because each access control panel is different, always check the panels instruction manual for appropriate interface wiring. Use shielded 8-conductor wire for the signal wiring between PIM and the access control panel. Refer to Table 5-1 for maximum wiring lengths and cable specifications. There are 6 different wiring connections that need to be made between the PIM and the Access Control Panel. These 6 connections need to be made for each of the Access Points on the PIM if both are used:

3.6.1 DC Power (required) Refer to J1 section of Table 3-2 for how to connect DC power to the PIM. This connection is always required regardless of the system application or configuration. 3.6.2 Access Point Card Reader (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Card Reader signals from the PIM to the access control panel. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.2.1 The Card Reader signals on earlier PIM versions are driven by open-collector (open drain) devices. If the access control panel does not have internal pull-up resistors then external pull-up resistors (external to the access control panel) will need to be installed. See Recognition Source Application Note A664-006-xxx: When Are PIM External Pull-Up Resistors Needed?

3.6.2.2 Later versions of the PIM RS232 PCB have optional pull-up resistors on the PCB. These pull-

up resistors are enabled or disabled using PCB shorting blocks (jumpers) (Table 3-2). The PIM RS232 with pull-up resistors on the PCB are shipped with the pull-ups enabled. Shorting Block J10 J9 J8 J6 Signal AP A Pull-ups AP B Pull-ups CLK/D1 DATA/D0 CLK/D1 DATA/D0 Pull-ups Enabled

(1Kohm to +5 VDC) shorted shorted shorted shorted Pull-ups Disabled

(open collector) open open open open Table 3-1 PIM RS232 Pull-up Resistor Options 3.6.3 Access Point Strike Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Strike signal from the access control panel to the PIM. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.4 Access Point (Door) Position Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Access Point (Door) Position Switch signal from the PIM to the access control panel. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.5 Access Point Request to Exit Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Request to Exit signal from the PIM to the access control panel. This connection is optional depending on the system application or P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 15 of 26 configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.6 Access Point Trouble Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Trouble signal from the PIM to the access control panel. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. After all required connections have been made connect the power and standby batteries to the panel. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 16 of 26 PIM PIM SIGNAL ACCESS PANEL SIGNAL J1 12V+

+7-14 VDC 12V-

DC Ground STK-NO Normally Open Strike Relay Contact DESCRIPTION/EXPLANATION PIM inputs for 12 VDC power. The PIM works from 7 to 14 VDC, and draws 250mA max during transmit. The access control panels reader power outputs may not source enough current for the PIM. If this is the case use the access control panels main regulated 12 VDC power supply or a separate UL approved 12 VDC power supply. Observe polarity. PIM input, used to monitor the state of the access panels strike relay. The STRIKE signal should be connected to the normally open terminal of the strike relay. The GROUND signal should be connected to the common terminal of the strike relay. This connection only needs to be made if the Access Point needs to be unlocked (door) or raised (gate). The PIM circuit is designed for connection to dry strike relay contacts (i.e. no external voltage should be applied to the strike relay contacts). J3 for Access Point A J4 for Access Point B STK-COM Common Strike Relay Contact If the access control panel does not have dry strike relay contacts, please contact Recognition Source for interfacing advice (section 6). EXIT REQ Request To Exit Input PIM open collector output, used to indicate when the Access Point is making a request to exit and needs to be connected to the access control panels request to exit input

(15 VDC max, 50ma max). This connection only needs to be made if the Access Point needs to have a request to exit function. Default configuration: low = request to exit. Logic polarity configurable. PIM open collector output, used to indicate the position of the Access Points portal:

open or closed (15 VDC max, 50ma max). DOOR STAT Door Status Input This connection only needs to be made if the Access Point needs to know the Access Points portal state. TROUBLE General Purpose Alarm Input DATA/D0 Data or Data 0 Input CLK/D1 Clock or Data 1 Input Default configuration: low = door closed. Logic polarity configurable. PIM open collector output, used to indicate that the Access Point has some type of trouble that needs attention or maintenance (15 VDC max, 50ma max). This connection only needs to be made if the Access Point trouble status needs to be monitored Default configuration: low = trouble. Logic polarity configurable. PIM outputs shipped with 1Kohm pull-up resistors to +5VDC option enabled

(configurable to open collector by re moving PCB jumpers), used to present card data to the access control panel. Generally, if the Access Point uses a magnetic reader then the PIM will present clock & data signals to the access control panel. If the Access Point uses a Wiegand or Proximity reader then the PIM will present data1/data0 signals to the access control panel. It is easy to get these signals reversed, if the first hookup fails to work, try switching the wires at these terminals. (6 VDC max, 50ma max). Refer to section 3.6.2 above, for pull-up resistor options for these signals . Default configuration: pull-up resistors = enabled. Configurable via PCB jumpers. GROUND Signal Ground This is a common signal ground for the EXIT REQ, DOOR STAT, TROUBLE, DATA/D0, and CLK/D1 signals. J5 PIN 2 PIN 3 PIN 5 TD Transmit Data RD Receive Data Signal Ground A RS232 communications port used with Wyreless Access system configuration tool. For additional information please refer to the Configuring & Operating a Wyreless Access System manual and the Configuration & Demonstration Tool (CDT) manual. Table 3-2 RS232 PIM to Access Control Panel Connections P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 17 of 26 3.7 Connecting the RS485 PIM PCB to the Access Control Panel Review the PIM Functional Components from Section 3.1 before connecting the RS485 PIM to an access control panel. Caution: Disconnect the access control panels power and standby batteries while wiring the PIM to the panel. Warning! Because each access control panel is different, always check the panels instruction manual for appropriate interface wiring. Use shielded 3 or 5 conductor wire for the signal wiring between PIM and the access control panel. Refer to Table 5-1 for maximum wiring lengths and cable specifications. There are 2 different wiring connections that need to be made between the PIM and the Access Control Panel. 3.7.1 DC Power (required) Refer to J1 section of Table 3-3 for how to connect DC power to the PIM. This connection is always required regardless of the system application or configuration. 3.7.2 RS485 Connections (required) Refer to J7 section of Table 3-3 for how to connect the RS485 signals from the RS485 PIM to the access control panel. Notes about making a RS485 connection: There is some confusion about the A and B designations for the RS485 signals. The EIA RS-485 Specification labels the data wires as A and B but many RS485 products label their wires + and -. Some products associate the + signal with A, some with B. The bottom line is that the + should always be connected to the + and the - to the - however it is designated. Reversing the polarity will not damage either RS485 device, it just wont communicate. So take your best guess (a 50/50 chance) about connecting + to

+ and - to - and if it doesnt work, switch them!

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(630) 762-4444 fax Page 18 of 26 PIM PIM SIGNAL ACCESS PANEL SIGNAL DESCRIPTION/EXPLANATION J1 J5 J7 12V+

+7-14 VDC 12V-

DC Ground PIM inputs for 12 VDC power. The PIM works from 7 to 14 VDC, and draws 250mA max during transmit. The access control panels reader power outputs may not source enough current for the PIM. If this is the case use the access control panels main regulated 12 VDC power supply or a separate UL approved 12 VDC power supply. Observe polarity. PIN 2 PIN 3 PIN 5 TD Transmit Data RD Receive Data Signal Ground Signal Ground TB+

+ Transmit Data RB+

+ Receive Data TA-

RA-

- Transmit Data

- Receive Data A RS232 communications port used with Wyreless Access system configuration tool. For additional information please refer to the Configuring & Operating a Wyreless Access System manual and the Configuration & Demonstration Tool (CDT) manual. A full or half duplex, 2 or 4 wire, bi-directional RS485 communications port for interfacing to access control panels. For a 2 wire RS485 installation refer to Table 3-4 For a 4 wire RS485 installation refer to Table 3-5 Note: Transmit and Receive nomenclature are with respect to the PIM (i.e. Transmit = data sent from the PIM, Receive = data sent to the PIM) Table 3-3 RS485 PIM to Access Control Panel Connections PIM1 Description Signal Ground PIM +Transmit Data PIM +Receive Data PIM Transmit Data PIM Receive Data Access Control Panel (ACP)2 Signal Description Ground

+ RS485 ACP Signal Ground ACP +RS485 Data

- RS485 ACP RS485 Data 1 PIM Transmit and Receive nomenclature are with respect to the PIM 2 ACP Transmit and Receive nomenclature are with respect to the ACP Table 3-4 2 Wire RS485 Connections PIM1 Signal Description Signal Ground PIM +Transmit Data PIM +Receive Data PIM Transmit Data PIM Receive Data Access Control Panel (ACP)2 Signal Description Ground

+ RS485 Receive

+ RS485 Transmit

- RS485 Receive

- RS485 Transmit ACP Signal Ground ACP +Receive Data ACP +Transmit Data ACP Receive Data ACP Transmit Data 1 PIM Transmit and Receive nomenclature are with respect to the PIM 2 ACP Transmit and Receive nomenclature are with respect to the ACP Signal TB+

RB+

TA-

TB-

TB+

RB+

TA-

TB-

Table 3-5 4 Wire RS485 Connections After all required connections have been made connect the power and standby batteries to the panel. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 19 of 26 This completes the installation of the PIM/PIME. If the Wyreless Access Point Modules (WAPM) that this PIM/PIME will control are not installed yet, now is the time to install them, please refer to the appropriate APC Installation Manual. If the Wyreless Access Point Modules (WAPM) that this PIM/PIME will control are installed, then you are ready to configure your Wyreless Access System, please refer to the Configuring & Operating a Wyreless Access System manual. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 20 of 26 4. Installing a Panel Interface Module Extender The PIM and the PIM-OTD can be expanded to control two additional access points by adding a Panel Interface Module Extender (PIME). To expand the PIM use a PIME, to expand the PIM-OTD use a PIME-

OTD. 4.1 Installing an Extender in a PIM Enclosure Installing a PIME permits one PIM enclosure (indoor) to control two additional access points for a total of four. The PIME is a PCB identical to the PCB in a standard PIM. The PIME mounts in the PIM enclosure to the right of the standard PIM PCB using 6 screws (Figure 4-1). All 6 screws are held in place by retaining washers and screw into threaded bosses inside the PIM enclosure. The top 4 screws use thin fiber retaining washers and the bottom 2 screws use a thicker nylon retaining washer. The retaining washers provide the proper spacing for mounting the PIME and therefore it is very important that the retaining washers be used and that the thicker nylon washers are only used on the bottom two holes. Once the PIME is mechanically mounted in the PIM enclosure, follow the instructions in section 3.5 to install the PIME antenna and connect the PIME to the access control panel. The installation instructions in section 3.5 are written for a PIM, when installing a PIME; substitute PIME where ever PIM is found. NOTE: If the PIME is installed after the PIM was installed it may be necessary to re-evaluate if the current PIM location is optimum for all the WAPMs that this location will control (see section 2). 4.2 Installing an Extender in a PIM-OTD Enclosure Figure 4-1 PIME PCB Location Installing an Extender permits one PIM-OTD enclosure (outdoor) to control two additional access points for a total of four. The PIME-OTD is a PCB identical to the PCB in a standard PIM-OTD. The PIME-

OTD mounts in the PIM-OTD enclosure to the right of the standard PIM-PCB using four 3/8, #6 thread forming screws, provided (Figure 4-2). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 21 of 26 Once the Extender is mechanically mounted in the PIM-OTD enclosure, follow the instructions in section 3.5 to install the Extender antenna and connect the Extender to the access control panel. The installation instructions in section 3.5 are written for a PIM, when installing a PIME-OTD substitute PIME-OTD where ever PIM is found. NOTE: If the PIME-OTD is installed after the PIM-OTD was installed it may be necessary to re-evaluate if the current PIM-OTD location is optimum for all the WAPMs that this location will control (see section 2). Figure 4-2 PIME-OTD PCB Location in a PIM-OTD P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 22 of 26 5. PIM/PIME Cable/Wire Specifications Application DC Power Input RS485 PIM to Access Control Panel Part Number AWG Description Belden 8760 Belden 9842 or 9841 Alpha 1298C 18 24 22 2 conductor 3 conductor shielded 8 conductor shielded Table 5-1 PIM Cable/Wire Specifications Maximum Distance 1,000 1,000 500 P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 23 of 26 For questions regarding Wyreless Access :

6. Contacting Recognition Source

(630) 762-4450

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(630) 762-4444 fax Page 24 of 26 7. FCC/UL Compliance & Warnings 7.1 FCC Compliance This device has been authorized by the FCC Rules and Industry Canada. This device complies with the limits for a Class B digital device and a Class B intentional radiator, pursuant to Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) This device may cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The Wyreless Access System Component must be installed by qualified professionals or contractors in accordance with FCC part 15.203, Antenna Requirements. Do not use any antenna other than the one provided for the unit. 7.2 UL Compliance The Panel Interface Module (PIM) is listed under UL294 as an access control system accessory. Access equipment manufactured and/or sold by Recognition Source, LLC, is not rated for, or intended for use in life safety installations. For UL installations use Recognition Source Power Supply, model PS-12VDCR-500mA UL listed class 2 power supply. For UL installations the Panel Interface Module enclosure (PIM or PIM-OTD) must be mounted in a secure area. 7.3 Warnings RF Exposure - To comply with FCC RF exposure requirements for mobile transmitting devices this transmitter should only be used or installed at locations where there is normally at least a 20 cm separation between the antenna and all persons. Do not co-locate and operate in conjunction with any other antenna or transmitter. Changes or modifications not expressly approved by Recognition Source could void the user's authority to operate the equipment. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 25 of 26 8. Revision History Version X001 Date 09/09/03 Changes preliminary in house release for comments P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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PPPRRREEELLLIIIMMMIIINNNAAARRRYYY CONFIGURING & OPERATING INSTRUCTIONS WYRELESS ACCESS SYSTEM

(WAS) 3820 Stern Avenue St. Charles, IL 60174 Phone: 630-762-4450 Fax: 630-762-4455 P/N: M053-xxx-x001.1 CONFIGURING & OPERATING INSTRUCTIONS NOTE: This manual is intended to be used after the Wyreless Access Modules have been installed. Each Wyreless Access module has its own installation manual. Use this manual to configure and operate your system. TABLE OF CONTENTS 1. Wyreless Access System (WAS)......................................................................................................................4 2. Panel Interface Module (PIM)............................................................................................................................5 2.1 How to determine the version of PIM PCB...................................................................................................6 2.2 The PIM Indicators........................................................................................................................................9 2.3 How to Set an RF Channel ..........................................................................................................................10 2.4 Putting the PIM into Link Mode..................................................................................................................10 2.5 What Happens if the PIM Loses DC Power ................................................................................................10 2.6 Using the PIM Reset Switch........................................................................................................................11 2.7 PIM Tamper Switch Operation....................................................................................................................11 2.8 Using the PIM Programming Connector .....................................................................................................11 3. Panel Interface Module Expander (PIME) .....................................................................................................12 4. Modular Integrated Reader Lock (MIRL)......................................................................................................13 4.1 The MIRL Audio/Visual Indicators.............................................................................................................13 4.2 Linking the MIRL to a WPIM .....................................................................................................................14 4.3 Testing the MIRL ........................................................................................................................................16 4.4 Installing/Replacing the MIRL Battery Pack...............................................................................................16 4.5 Battery Override ..........................................................................................................................................17 4.6 Re-linking an MIRL and WPIM..................................................................................................................17 4.7 Changing the RF Channel............................................................................................................................17 5. Wireless Reader Interface (WRI).....................................................................................................................18 5.1 The WRI Visual Indicators..........................................................................................................................19 5.2 Linking to the WPIM by Powering or Resetting the WRI...........................................................................20 5.3 Testing the WRI...........................................................................................................................................20 5.4 Re-linking a WRI and WPIM ......................................................................................................................21 5.5 Changing the RF Channel............................................................................................................................21 6. Wireless Integrated Strike Interface (WISI)...................................................................................................22 6.1 The WISI Audio/Visual Indicators ..............................................................................................................23 6.2 Linking to the WPIM by Powering the WISI ..............................................................................................23 6.3 Testing the WISI..........................................................................................................................................24 P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 2 of 44 6.4 Replacing the WISI Battery Pack, BP12V-001 ...........................................................................................24 6.5 Battery Override ..........................................................................................................................................25 6.6 Re-linking an WISI and WPIM ...................................................................................................................25 6.7 Changing the RF Channel............................................................................................................................25 7. Wireless Universal Strike Interface (WUSI) ...................................................................................................27 7.1 The WUSI Visual Indicators........................................................................................................................28 7.2 Linking to the WPIM by Powering the WUSI.............................................................................................28 7.3 Testing the WUSI ........................................................................................................................................29 7.4 Re-linking a WUSI and WPIM....................................................................................................................30 7.5 Changing the RF Channel............................................................................................................................30 8. Wireless Portable Reader (WPR).....................................................................................................................31 8.1 The WPR Audio/Visual Indicators ..............................................................................................................32 8.2 Turning the WPR On...................................................................................................................................32 8.3 Linking or Re-Linking to the WPIM by Powering the WPR.......................................................................32 8.4 Testing the WPR..........................................................................................................................................33 8.5 Replacing the WPR Battery Pack, BP12V-001 ...........................................................................................34 8.6 Changing the RF Channel............................................................................................................................35 9. Wireless Contact Monitor (WCM)...................................................................................................................36 9.1 The WCM Visual Indicators........................................................................................................................37 9.2 Linking to the WPIM by Resetting the WCM .............................................................................................37 9.3 Replacing the WCM Battery Pack, BP12V-001..........................................................................................38 9.4 Re-linking an WCM and WPIM..................................................................................................................39 9.5 Changing the RF Channel............................................................................................................................39 10. Other Important Information.......................................................................................................................40 Knowing When to Change the RF Channel.............................................................................................40 10.1 Configuring the Wyreless AccessTM System ...........................................................................................40 10.2 10.3 Extended Unlock .....................................................................................................................................40 10.4 Why Swipe a Card When the Power Is Disconnected? ...........................................................................41 Contacting Recognition Source ....................................................................................................................42 FCC Compliance & Warnings......................................................................................................................43 12.1 FCC Compliance .....................................................................................................................................43 12.2 Warnings..................................................................................................................................................43 Revision History.............................................................................................................................................44 11. 12. 13. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 3 of 44 1. Wyreless Access System (WAS) Every access control system that uses Wyreless AccessTM contains two different types of modules (Figure 1-1):

at least one Wyreless Panel Interface Module (WPIM), and at least one Wyreless Access Point Module (WAPM) Recognition Sources product line contains several different expressions of each module (Table 1-1). Figure 1-1 Wyreless Access System Block Diagram Wyreless Access Module Name Acronym Panel Interface Module Panel Interface Module Expander Modular Integrated Reader Lock Wireless Reader Interface Wireless Integrated Strike Interface*

Wireless Universal Strike Interface Wireless Portable Reader*

Wireless Contact Monitor*

*Not evaluated by UL. PIM PIME MIRL WRI WISI WUSI WPR WCM Type WPIM WPIM WAPM WAPM WAPM WAPM WAPM WAPM Manual Section Page 2 3 4 5 6 7 8 9 5 12 13 18 22 27 31 36 Table 1-1 Recognition Source Wyreless Access Product Line The WPIM is wired to the access control panel and ideally is installed very close to the access control panel. The WPIMs installation location is determined by the location of the WAPMs with which it will communicate using RF. The WAPM is installed at the access point where access will be controlled and/or monitored. Depending on the application and which WAPM is used, some wiring at the access control point may be required. Regardless of which WPIM or WAPM module is used, the communication link between the WPIM and WAPM is always RF. This manual describes the configuration and operation of all the WPIMs and WAPMs in the Recognition Source Wyreless Access Product Line. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 4 of 44 2. Panel Interface Module (PIM) The Panel Interface Module (PIM) is a product in the Recognition Sources Wyreless Panel Interface Module

(WPIM) category. The PIM is the wireless interface to an access control panel. Table 2-1 & Table 2-2 show all the PIM sales models and their major specifications. Sales Model PIM-OTD Closed Enclosure Opened Enclosure Extender Antenna PIME-OTD internal c or remote

(ANT-REMOTE)

(ANT-6DB-FLAT) Table 2-1 PIM Enclosure Variations P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 5 of 44 MODEL ENCLOSURE MAXIMUM NUMBER OF WAPMs PIM-OTD PIM-OTD-485 PIME-OTD ANT-REMOTE ANT-6DB-PANEL plastic plastic n/a plastic plastic 2 16 2 n/a n/a LOCATION ACCESS CONTROL PANEL INTERFACE/DESCRIPTION indoor indoor indoor indoor outdoor indoor outdoor Magnetic (clock & data) or Wiegand (data1/data0) RS485 Magnetic (clock & data) or Wiegand (data1/data0) Optional remote omni-directional antenna (0 DB gain) Optional remote directional panel antenna (6 DB gain) 2.1 How to determine the version of PIM PCB Table 2-2- PIM Sales Model Table There are two versions of the PIM printed circuit board (PCB): RS232 (Figure 2-1) and RS485 (Figure 2-2). The version of PIM PCB being installed can be identified by observing which connectors are installed on the PCB. Compare the board being installed to Figure 2-1 and Figure 2-2. 2.1.1 RS232 PIM PCB (Figure 2-1) If the RS232, 9-pin connector, J5, is installed and the RS485, 5-pin terminal block, J7, is missing then it is a RS232 PIM PCB 2.1.2 RS485 PIM PCB (Figure 2-2) The RS485 PIM PCB can be uniquely identified in one of two ways:

If the RS232, 9-pin connector, J5, is installed and the RS485, 5-pin terminal block, J7, is installed it is a RS485 PIM PCB If the Access Point A, 8-pin panel connector, J3 and the Access Point B, 8-pin panel connector, J4, are missing it is a RS485 PIM PCB P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 6 of 44 Figure 2-1 RS232 PIM & PIME Printed Circuit Board (PCB) P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 7 of 44 Figure 2-2 RS485 PIM & PIME Printed Circuit Board (PCB) P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 8 of 44 2.2 The PIM Indicators There are five LEDs on the PIM PCB: CR15 (green), CR7 and CR10 (red), CR6 and CR9 (green and red). These LEDs indicate the current status of the PIM (Table 2-3) and the WAPMs linked to it. Condition LED Indication CR 15

(green) CR7, 10

(red) CR6, 9

(green red) Normal operation, PIM is powered &

the microprocessor is running Tamper On

(Door Open) Tamper Off 2 PIM is not powered or PIM is defective WAPM Trouble: Low Battery WAPM Trouble: No Communication WAPM Trouble: Reader Tamper WAPM Trouble: Lock Motor Stall blinking on off on NA NA NA 1 blink 2 blinks 3 blinks 4 blinks green green NA NA Link Access Point A Link Access Point B blinking blinking NA NA 1 3 4 5 CR9 flash green & red CR6 flash green & red Green flash on every good transmission-

Red flash on any bad transmission. Goes on for about 20 seconds. 1 red flash per transmission blinks off momentarily 6 Packet-Error-Rate test during linking blinking NA 7 8 PIM Transmitting a Message blinking PIM Receiving a Message blinking NA NA Table 2-3 PIM LED Indicators P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 9 of 44 2.3 How to Set an RF Channel One of fifteen RF channels can be set using DIP switch SW7 on the PIM (Figure 2-1 or Figure 2-2). Table 2-4 shows how to set SW7 to select the desired RF channel:

Switch 3 Switch 1 Switch 2 Switch 4 Channel 1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 up up up up up up up up down down down down down down down down up down up down up down up down up down up down up down up down Table 2-4 DIP Switch Setting to Select the RF Channel up up down down up up down down up up down down up up down down up up up up down down down down up up up up down down down down NOTE: The first two switch settings select Channel 1. When the PIM is wired to the panel, power is applied, and the RF Channel is set, the PIM is ready to enter Link Mode. 2.4 Putting the PIM into Link Mode The Link Mode allows 2 WAPMs to be linked to a PIM. Only one WAPM can be linked at a time. 2.4.1 Once the RF Channel has been set (Section 2.3) on the PIM, press and release switch S1 to link Access Point A (AP A) or switch S2 to link Access Point B (AP B). 2.4.2 The corresponding PIM LED (CR9 for S1; CR6 for S2) flashes red and green. This indicates that the PIM is in Link Mode. To abort Link Mode, press the same switch again. When the PIM is powered, the RF Channel is set, and the PIM is in Link Mode, the system is ready for the WAPM to initiate linking. Now, proceed to the appropriate section of this manual to link the desired WAPM to this PIM. 2.5 What Happens if the PIM Loses DC Power All of the configuration and linking information is stored in non-volatile memory in the PIM. Therefore if PIM DC power is lost or cycled, upon restoring DC power, the PIM will continue operation with the same configuration and linking information. There is no need to re-configure or re-link. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 10 of 44 2.6 Using the PIM Reset Switch The Reset Switch, S3 (Figure 2-1 or Figure 2-2), is used if the PIM does not seem to be working properly. Pressing the Reset Switch has the same effect as cycling DC power to the PIM. 2.7 PIM Tamper Switch Operation The PIM Tamper Switch, SW1 (Figure 2-1 or Figure 2-2), senses if the PIM enclosure door is open or closed. PIM Enclosure Door PIM LED CR15 PIM Access Point A Trouble Signal*

PIM Access Point B Trouble Signal*

constant green inactive inactive Extended Unlock for Access Point A

Access Point B works if enabled blinking green active active does not work even if enabled

*this assumes that no other trouble is present from either Access Point closed

(i.e. no tamper) open

(i.e. tamper) Table 2-5 PIM Tamper Switch Operation The Trouble signal is asserted (activated) for both PIM Access Points when a PIM enclosure door is opened. Any PIM enclosure door opening, even if for maintenance, is considered a tamper condition. When the PIM enclosure door is open the Extended Unlock feature (section 10.3) will not work (i.e. temporarily disabled) even if the feature is configured to be enabled under normal operation (i.e. no PIM tamper). This was done to makes system testing, maintenance, and commissioning easier. 2.8 Using the PIM Programming Connector The PIM Programming Connector, J2 (Figure 2-1 or Figure 2-2) is used to install a new version of the PIM firmware into the PIM. If a new firmware version is required, please refer to the Wyreless Access System Firmware Programming manual for further details. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 11 of 44 3. Panel Interface Module Expander (PIME) The Panel Interface Module Expander (PIME) is a product in the Recognition Sources Wyreless Panel Interface Module (WPIM) category. The PIME installs in a PIM-OTD enclosure and provides the ability to interface 1 to 16 additional Wyreless Access Point Modules (WAPM) to an Access Control Panel. Figure 3-1 shows the PIM-OTD enclosure with PIME-OTD installed. Figure 3-1 PIME-OTD PCB Location in a PIM-OTD Since configuration and operation of a PIME-OTD is identical to a PIM-OTD use Section 2 and replace PIM with PIME where ever found. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 12 of 44 4. Modular Integrated Reader Lock (MIRL) The Modular Integrated Reader Lock (MIRL) is a product in the Recognition Sources Wyreless Access Point Module (WAPM) category. Figure 4-1 MIRL Locked Side (Outside) Figure 4-2 MIRL Unlocked Side (Inside) 4.1 The MIRL Audio/Visual Indicators Action LED Indications 1 MIRL is powered and then displays 2a MIRL Relocks (motor runs) software version number 2b 2c 2d If linking, MIRL sends a link request

(up to 3 times per RF channel) looking for a WPIM in link mode If linking, MIRL & WPIM do an Packet-Error-Rate test for about 20 seconds If linking, MIRL linked successfully and indicates the RF Channel on which it linked 2e Or if linking, MIRL not linked 3 4 5 No communications with card swipe successfully Card swiped and not read Card swiped and read 6 Access denied 7 Access granted, MIRL unlocks 8 MIRL Relocks (motor runs)

(motor runs) X red flashes then Y green flashes*

1 red flash 1 green flash;

then 1 red flash once for each link request sent flashes for each RF transmission:

green flash for a good transmission red flash for a bad transmission Z green flashes*

2 red flashes none none 1 red flash immediate 2 red flashes delayed about 1-15 seconds 1 green flash 1 red flash

* X = major software version number (any number is possible) Y = minor software version number (any number is possible) Z = RF channel number that the MIRL linked on (1-15) MIRL Sounder none 1 beep none none Z beeps*

1 long beep none 1 beep none 1 beep none 1 beep P/N: M053-xxx-x001.1 Table 4-1 MIRL Indicators 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 13 of 44 4.2 Linking the MIRL to a WPIM NOTE: Only one MIRL can be linked at a time. 4.2.1 If the MIRL does not have a Battery Pack installed, install one now (section 4.4). 4.2.2 Make certain that the WPIM to be linked to is in the Link Mode (Section 2.4). 4.2.3 To initiate the linking process:

4.2.3.1 Open the door. 4.2.3.2 Activate and hold down the inside lever to create a Request to Exit Condition. 4.2.3.3 While holding down the lever (Request to Exit), present a card to the card reader. 4.2.3.4 Continue to hold down the lever (Request to Exit) until the MIRL LEDs start to blink indicating that the link process has begun (approximately 8 seconds), then release the lever. 4.2.3.5 Close the door. 4.2.4 During linking, the WPIMs LED (CR6 or CR9, depending on the door (IRL) being linked) and the MIRL LED blink green (some intermittent red may be seen) for about 20 seconds while the MIRL &

WPIM determine the integrity of the selected RF channel. 4.2.5 If the MIRL & WPIM determine that the RF channel can be used, then the linking is completed successfully and the WPIMs LED (CR6 or CR9, whichever was flashing) turns solid green. The MIRL LED then blinks green and the sounder beeps. The number of green blinks and beeps indicates the linked RF channel number. If this occurs go to the next step, section 4.2.6. If the MIRL & WPIM determine that the RF signal quality is not acceptable then the link fails and the MIRL LED blinks red twice and the sounder beeps once (Table 4-1). The WPIM will stay in the Link Mode and the WPIM LED (CR6 or CR9) returns to alternating green and red. If this happens, move either the PIM, or change RF channels and try the link process again (Section 4.2). 4.2.6 The MIRL is now ready to be tested for normal operation. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 14 of 44 Figure 4-3 MIRL Transceiver Cover Figure 4-4 MIRL Battery Pack Removal/Installation Figure 4-5 MIRL Battery Pack P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 15 of 44 4.3 Testing the MIRL 4.3.1 Proximity Card Reader Models 4.3.1.1 Place the card flat to and within one-quarter inch of the upper part of the Proximity Reader

(Figure 4-6). The reader sounder beeps. Figure 4-6 - Presenting a Proximity Card 4.3.1.2 The green LED flashes and the lock will unlock. 4.3.1.3 Turn the Lever and open the door. 4.3.1.4 Shortly after the green flash, there is a red flash and sounder beep signifying relock. 4.3.2 Indication of an Unsuccessful Card Swipe The best indication of an unsuccessful valid card swipe is when the MIRLs internal sounder does not beep, indicating that the card was not read. If an invalid card is swiped, the MIRLs red LED flashes twice and the internal sounder beeps once. In both cases the MIRL remains locked. 4.4 Installing/Replacing the MIRL Battery Pack NOTE: If you want to re-link when changing the MIRL Battery Pack, follow the procedure in section 4.2, page 14. Approximately one month prior the end of the MIRL Elite Battery Pack life, a Low Battery Trouble signal is indicated at the WPIM (Table 2-3) and a Trouble signal will be sent to the access control panel. To install or replace the MIRL Elite Battery Pack, remove the MIRL Transceiver Cover (Figure 4-3). IF replacing, disconnect the old MIRL Battery Pack. If installed, remove the Battery Bracket. If replacing, remove the old Battery Pack (Figure 4-4). Install the new Battery Pack, install the Battery Bracket, and connect the Battery Pack (Figure 4-5). Install the MIRL Transceiver Cover (Figure 4-3). Depending on how long the Battery Pack was disconnected, the MIRL may or may not go through its power-up sequence. In either case the MIRL will stay linked to its WPIM. There is no need to re-link. NOTE: No other WPIM can be in Link Mode during this process. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 16 of 44 4.5 Battery Override If the MIRL Battery Pack fails, a standard 9.0V battery, 522 or equivalent, may be used together with a Battery Override Supply Cable (9VBOC) to power the MIRL so the door can be opened with a valid card. The Battery Override Cable plugs to the Battery Override Connector found on the lower part Card Reader Base Plate after removing the Card Reader Cover (Figure 4-7). NOTE: If the Card Reader Base Plate has a Tamper Switch that is activated when the Reader Cover is removed, then the Card Reader is disabled. Tamper Switch must be manually held closed (simulating the cover being installed) for the Card Reader to operate. Figure 4-7 MIRL Battery Override 4.6 Re-linking an MIRL and WPIM To re-link a MIRL and WPIM, follow the instructions in Section 4.2. 4.7 Changing the RF Channel At the WPIM, change DIP switch SW7 to the desired new RF channel (Section 2.3), place the PIM in Link Mode (see Section 2.4), then re-link the desired MIRL (Section 4.6). NOTE: The WPIMs RF channel DIP switch (SW7) is read when the WPIM enters the Link Mode. If the DIP switch is changed while the WPIM is in the Link Mode, then the WPIM must be taken out of Link Mode and put back into Link Mode for the new RF channel to be selected. The WPIM is taken out of Link Mode by pressing the switch associated with the Access Point that is in the Link Mode (S1 or S2). NOTE: Changing the RF channel will require all WAPMs linked to the PIM to be re-linked. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 17 of 44 5. Wireless Reader Interface (WRI) The Wireless Reader Interface (WRI) is a product in the Recognition Sources Wyreless Access Point Module (WAPM) category. Figure 5-1 Front of the WRI Figure 5-2 Inside the WRI Figure 5-3 WRI Printed Circuit Board (PCB) P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 18 of 44 5.1 The WRI Visual Indicators There are two LEDs on the WRI PCB: a red Power LED (LED1, Figure 5-3) and a green/red State LED

(LED2, Figure 5-3). These LEDs indicate the current status of the WRI (Table 5-1). 1 2 3 4 4a 4b Condition Normal operation, WRI is powered &

the microprocessor is running Tamper On

(WRI door open or external tamper) Tamper Off PIM is not powered or PIM is defective WRI is powered and then displays software version number WRI sends a link request (up to 3 times per RF channel) looking for a WPIM in link mode seconds If linking, WRI & WPIM do an Packet-Error-Rate test for about 20 If linking, WRI linked successfully and indicates the RF Channel on which it linked 4c Or, if linking, WRI not linked successfully LED1

(green) blinking on off on on on on on 5 6 Card swiped and not read Card swiped and read blinking blinking LED Indication LED2

(green red) off off NA X red flashes then Y green flashes*

1 green flash; then 1 red flash once for each link request sent flashes for each RF transmission: green flash for a good transmission, red flash for a bad transmission Z green flashes*

2 red flashes off off 7 No communications with card swipe blinking 1 red flash immediate 8 Access denied blinking 2 red flashes delayed about 1-15 seconds 9 Access granted, WRI activates Strike &

Auxiliary Relays blinking green stays on as long as the Strike Relay is activated

* X = major software version number (any number is possible) Y = minor software version number (any number is possible) Z = RF channel number that the WRI linked on (1-15) Table 5-1 WRI LED Indicators P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 19 of 44 5.2 Linking to the WPIM by Powering or Resetting the WRI NOTE: Only one WRI can be linked at a time. 5.2.1 Make certain that that WPIM to be linked to is in the Link Mode (Section 2.4). 5.2.2 Reset the WRI by either cycling the WRI power (J3, Figure 5-3) or by pressing and releasing the WRI Reset Switch (S1, Figure 5-3). After displaying the firmware version number on LED2, the WRI attempts to link with a WPIM. 5.2.3 During linking, the WPIMs LED (CR6 or CR9, depending on the portal (WRI) being linked) blinks green (some intermittent red may be seen) and the WRI LED2 blinks green (some intermittent red may be seen) for about 20 seconds while the WRI & WPIM determine the integrity of the selected RF channel. 5.2.4 If the WRI & WPIM determine that the RF channel can be used, then the linking is completed successfully and the WPIMs LED (CR6 or CR9, whichever was flashing) turns solid green. LED2 of the WRI then blinks green. The number of green blinks indicates the linked RF channel number. If the WRI & WPIM determine that the RF signal quality is not acceptable then the link fails and the WPR LED2 blinks red twice (Table 5-1). The WPIM will stay in the Link Mode. If this happens, move either the WRI, PIM, or change RF channels and try the link process again (Section 5.2.1). 5.2.5 Close and secure the WRI enclosure cover. 5.2.6 The WRI is now ready to be tested for normal operation. 5.3 Testing the WRI If the WRI was installed with all of its peripherals then there are 8 tests that need to be run before commissioning the WRI for operation. If a WRI peripheral was not installed, then that particular test can be skipped. 5.3.1 Tamper Switch The WRI Tamper Switch (SW1, Figure 5-3) monitors the WRI enclosure door position. If the WRI enclosure door is open a tamper condition is generated. To test the operation of this switch, open the WRI enclosure door, if an External Tamper is wired, make certain the circuit is open or remove the Tamper Input (J2, Figure 5-3) connection, the WRI LED1 should be flashing green. Press SW1 using a finger or non-conductive tool. The WRI LED1 should be a constant green for as long as the switch is pressed. If it was removed, remember to replace the Tamper Input (J2, Figure 5-3) connection. NOTE: The External Tamper Input is wired in parallel with the WRI Tamper Switch (SW1), therefore in order to test the WRI Tamper Switch (SW1), the Tamper Input (J3) must be in the non-Tamper

(pressed) state (i.e. open circuit). 5.3.2 External Tamper Do this test if an external tamper switch is wired to the WRI Tamper Input (J2, Figure 5-3). Open the WRI enclosure door. Press and hold SW1 using a finger or non-conductive tool. When the external tamper switch is closed, the WRI LED1 should be flashing green. When the external tamper switch is open, the WRI LED1 should be a constant green. NOTE: The External Tamper Input is wired in parallel with the WRI Tamper Switch (SW1), therefore in order to test the External Tamper, the WRI Tamper Switch must be in the non-Tamper (pressed) state. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 20 of 44 5.3.3 Request to Exit Do this test if a Request to Exit device is wired to the WRI Portal Inputs (J7-3 & 4, Figure 5-3). Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that activating the Request to Exit device causes a request to exit to be sent to the CDT or ACP software. Also verify that the request to exit is removed when the Request to Exit device goes inactive. 5.3.4 Door Position Do this test if a Door Position device is wired to the WRI Portal Inputs (J7-5 & 6, Figure 5-3). Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that the CDT or ACP software can monitor the doors position by opening and closing the door. 5.3.5 Strike Relay Do this test if an electrical lock or load is connected to the Strike Portal Output (J8-1, 2, and/or 3, Figure 5-3). Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that Strike Portal Output can control the electrical lock or load. 5.3.6 Auxiliary Relay Do this test if an electrical lock or load is connected to the Auxiliary Portal Output (J8-4, 5, and/or 6, Figure 5-3). Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that Auxiliary Portal Output can control the electrical lock or load. 5.3.7 Card Reader 1 Do this test if a card reader or keypad is connected to the Card Reader 1 (J4, Figure 5-3) connector. Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that the card reader or keypad is sending the correct data. 5.3.8 Card Reader 2 Do this test if a card reader or keypad is connected to the Card Reader 2 (J5, Figure 5-3) connector. Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that the card reader or keypad is sending the correct data. 5.4 Re-linking a WRI and WPIM To re-link a WRI and WPIM, follow the instructions in Section 5.2. 5.5 Changing the RF Channel At the WPIM, change DIP switch SW7 to the desired new RF channel (Section 2.3), place the WPIM in Link Mode (see Section 2.4), then re-link the desired WRI (Section 5.2). NOTE: The WPIMs RF channel DIP switch (SW7) is read when the WPIM enters the Link Mode. If the DIP switch is changed while the WPIM is in the Link Mode, then the WPIM must be taken out of Link Mode and put back into Link Mode for the new RF channel to be selected. The WPIM is taken out of Link Mode by pressing the switch associated with the Access Point that is in the Link Mode (S1 or S2). NOTE: Changing the RF channel will require all WAPMs linked to the WPIM to be re-linked. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 21 of 44 6. Wireless Integrated Strike Interface (WISI) The Wireless Integrated Strike Interface (WISI) is a product in the Recognition Sources Wyreless Access Point Module (WAPM) category. Figure 6-1 WISI Components Figure 6-2 WISI Battery Pack Figure 6-3 Control Transceiver with Cover Removed P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 22 of 44 6.1 The WISI Audio/Visual Indicators Action Card Reader LED Indication 1 WISI is powered and then displays 2a WISI Relocks (motor runs) software version number 2b 2c 2d If linking, WISI sends a link request

(up to 3 times per RF channel) looking for a WPIM in link mode If linking, WISI & WPIM do an Packet-Error-Rate test for about 20 seconds If linking, WISI linked successfully and indicates the RF Channel on which it linked 2e Or if linking, WISI not linked 3 4 5 No communications with card swipe successfully Card swiped and not read Card swiped and read X red flashes then Y green flashes*

1 red flash 1 green flash;

then 1 red flash once for each link request sent flashes for each RF transmission:

green flash for a good transmission red flash for a bad transmission Z green flashes*

2 red flashes none none 1 red flash immediate 2 red flashes delayed about 1-15 second 6 Access denied 7 Access granted, WISI unlocks (motor 8 WISI Relocks (motor runs) runs) 1 green flash 1 red flash

* X = major software version number (any number is possible) Y = minor software version number (any number is possible) Z = RF channel number that the WISI linked on (1-15) WISI Sounder none 1 beep none none Z beeps*

1 long beep none 1 beep none 1 beep none 1 beep Table 6-1 WISI Indicators 6.2 Linking to the WPIM by Powering the WISI NOTES:

Only one WISI can be linked at a time. The WISI Battery Pack must be installed before linking (Section 6.4). 6.2.1 Make certain that that WPIM to be linked to is in the Link Mode (Section 2.4). 6.2.2 If the WISI cover is installed, use a Phillips screwdriver to remove WISI cover. There are 4 cover screws, one in each corner (Figure 6-3). 6.2.3 Find, press, and release the WISI Reset Switch located below and to the left side of J4 (Figure 6-3). 6.2.4 During linking, the WPIMs LED (CR6 or CR9, depending on the door (WISI) being linked) blinks green (some intermittent red may be seen) and the WISI Card Reader LED blinks green (some intermittent red may be seen) for about 20 seconds while the WISI & WPIM determine the integrity of the selected RF channel. 6.2.5 If the WISI & WPIM determine that the RF channel can be used, then the linking is completed successfully and the WPIMs LED (CR6 or CR9, whichever was flashing) turns solid green. The WISI Card Reader LED then blinks green and the sounder beeps. The number of green blinks and beeps indicates the linked RF channel number. If the WISI & WPIM determine that the RF signal quality is not acceptable then the link fails and the WISI LED blinks red twice and the sounder beeps once (Table 6-1). The WPIM will stay in the Link P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 23 of 44 Mode. If this happens, move either the WISI, PIM, or change RF channels and try the link process again (Section 6.2.1). 6.2.6 Re-install the WISI cover, making certain that no wires are pinched. The cover should go on easy with no interferences. Replace the 4 cover screws, one in each corner (Figure 6-1). 6.2.7 The WISI is now ready to be tested for normal operation. 6.3 Testing the WISI NOTE: The WISI Card Reader will not work as long as the WISI Enclosure Cover is removed (i.e. the WISI Card Reader will not work if there is a WISI Tamper). 6.3.1 Magnetic Stripe or Wiegand Card Reader Models 6.3.1.1 Insert the card and slide it down the slot keeping its back edge against the back of the readers slot throughout the entire swipe. The reader sounder beeps. 6.3.1.2 The WISI Card Reader LED flashes green and the strike unlocks. 6.3.1.3 Shortly after the green flash, there is a red flash and sounder beep signifying relock. 6.3.2 Proximity Card Reader Models 6.3.2.1 Place the card flat to and within one-quarter inch of the upper part of the Proximity Reader. The reader sounder beeps. 6.3.2.2 The WISI Card Reader LED flashes green and the strike unlocks. 6.3.2.3 Shortly after the green flash, there is a red flash and sounder beep signifying relock. 6.3.3 Indication of an Unsuccessful Card Swipe The best indication of an unsuccessful valid card swipe is when the WISIs internal sounder does not beep, indicating that the card was not read. If an invalid card is swiped, the WISI Card Reader LED flashes red twice and the internal sounder beeps once. In both cases the WISIs strike remains locked. 6.4 Replacing the WISI Battery Pack, BP12V-001 Approximately one month prior the end of the WISIs Battery Pack life, a Low Battery Trouble signal is indicated at the WPIM (Table 6-1), a Trouble signal will be sent to the access control panel. NOTE: Make certain no WPIMs are in the Link Mode when replacing the WISI Battery Pack or the WISI may inadvertently link to the wrong WPIM. 6.4.1 Use a Phillips screwdriver to remove WISI cover. There are 4 cover screws, one in each corner

(Figure 6-3). 6.4.2 Locate the used Battery Pack (Figure 6-4), disconnect the used Battery Pack, and remove the used Battery Pack from its Velcro Strips. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 24 of 44 Figure 6-4 Removing the Used Battery Pack 6.4.3 Install the Battery Pack into the Transceiver Control Module enclosure using the Velcro provided AND connect the Battery Pack Connector to its mating connector that is factory connected to J4

(Figure 6-5). Figure 6-5 New Battery Pack Installed 6.4.4 To continue to use the WISI on the same RF channel and with the same WPIM, make certain that no WPIMs are in the Link Mode, then press and release the WISI Reset Switch located below and to the left side of J4 (Figure 6-5). This insures that the WISI has started properly. Re-install the WISI cover, making certain that no wires are pinched. The cover should go on easy with no interferences. Replace the 4 cover screws, one in each corner (Figure 6-1). If the WPR needs to be re-linked or the RF channel needs to be changed, before re-installing the WISI cover, follow the instructions in Section 6.2 or Section 6.7. NOTE: No other WPIM can be in Link Mode during this process. 6.5 Battery Override If the WISI Battery Pack fails, a standard 9.0V battery, 522 or equivalent, may be used together with a Battery Override Supply Cable (9VBOC) to power the WISI so the door can be opened with a valid card. The Battery Override Cable plugs to the Battery Override Connector found on the underside of the card reader. 6.6 Re-linking an WISI and WPIM To re-link a WISI and WPIM follow the instructions in Section 6.2. 6.7 Changing the RF Channel At the WPIM, change DIP switch SW7 to the desired new RF channel (Section 2.3), place the PIM in Link Mode (see Section 2.4), then re-link the desired WISI (Section 6.6). NOTE: The WPIMs RF channel DIP switch (SW7) is read when the WPIM enters the Link Mode. If the DIP switch is changed while the WPIM is in the Link Mode, then the WPIM must be taken out of Link Mode and put back into Link Mode for the new RF channel to be selected. The WPIM P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 25 of 44 is taken out of Link Mode by pressing the switch associated with the Access Point that is in the Link Mode (S1 or S2). NOTE: Changing the RF channel will require all WAPMs linked to the PIM to be re-linked. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 26 of 44 7. Wireless Universal Strike Interface (WUSI) The Wireless Universal Strike Interface (WUSI) is a product in the Recognition Sources Wyreless Access Point Module (WAPM) category. Figure 7-1 Front of the WUSI Figure 7-2 Inside the WUSI Figure 7-3 WUSI Printed Circuit Board (PCB) P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 27 of 44 7.1 The WUSI Visual Indicators Depending on how the Card Reader is interfaced to the WUSI, the LED on the Card Reader may display some WUSI status conditions (Table 7-1). 1 2 3a 3b Condition WUSI is powered and then displays software version number Card Reader LED Y green flashes*

WUSI sends a link request (up to 3 times per RF channel) looking for a WPIM in If linking, WUSI & WPIM do an Packet-Error-Rate test for about 20 link mode seconds If linking, WUSI linked successfully and indicates the RF Channel on which it linked 3c Or, if linking, WUSI not linked successfully 4 5 Card swiped and not read Card swiped and read 1 green flash each link request sent flashes for each RF transmission: green flash for a good transmission, red flash for a bad transmission Z green flashes*

2 red flashes solid red red to green to red 6 No communications with card swipe red to green to red 7 Access denied 8 Access granted, WUSI activates Strike &

Auxiliary Relays red to green to red green stays on as long as the Strike Relay is activated

* Y = minor software version number (any number is possible) Z = RF channel number that the WUSI linked on (1-15) Table 7-1 WUSI LED Indicators 7.2 Linking to the WPIM by Powering the WUSI NOTE: Only one WUSI can be linked at a time. 7.2.1 Make certain that that WPIM to be linked to is in the Link Mode (Section 2.4). 7.2.2 Reset the WUSI by cycling the WUSI power (Figure 7-3). The WUSI attempts to link with a WPIM. 7.2.3 During linking, the WPIMs LED (CR6 or CR9, depending on the portal (WUSI) being linked) blinks green (some intermittent red may be seen) and the WUSI Card Reader LED may blink green (some intermittent red may be seen) for about 20 seconds while the WUSI & WPIM determine the integrity of the selected RF channel. 7.2.4 If the WUSI & WPIM determine that the RF channel can be used, then the linking is completed successfully and the WPIMs LED (CR6 or CR9, whichever was flashing) turns solid green. The WUSI Card Reader LED may then blink green. The number of green blinks indicates the linked RF channel number. If the WUSI & WPIM determine that the RF signal quality is not acceptable then the link fails and the WUSI Card Reader LED may blink red twice (Table 7-1). The WPIM will stay in the Link Mode. If P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 28 of 44 this happens, move either the WUSI, PIM, or change RF channels and try the link process again

(Section 7.2.1). 7.2.5 Close and secure the WUSI enclosure cover. 7.2.6 The WUSI is now ready to be tested for normal operation. 7.3 Testing the WUSI If the WUSI was installed with all of its peripherals then there are 6 tests that need to be run before commissioning the WUSI for operation. If a WUSI peripheral was not installed, then that particular test can be skipped. 7.3.1 Tamper Switch The WUSI Tamper Switch (Figure 7-3) monitors the WUSI enclosure cover position. If the WUSI enclosure cover is open a tamper condition is generated. To test the operation of this switch, make certain that the WUSI is linked to a PIM, open the WUSI enclosure cover, if an External Tamper is wired, make certain the circuit is open or remove the Tamper Input (J2, Figure 7-3) connection, the PIMs Trouble LED (CR7 or CR10) should be flashing 3 red blinks. Install the WUSI cover. The PIMs Trouble LED (CR7 or CR10) should not be flashing 3 red blinks for as long as the WUSIs cover in installed. Note: The Trouble LED may be flashing other trouble codes, just make certain it is not flashing the Tamper error code: 3 red blinks. If it was removed, remember to replace the Tamper Input (Figure 7-3) connection. NOTE: The External Tamper Input is wired in parallel with the WUSI Tamper Switch (SW1), therefore in order to test the WUSI Tamper Switch, the Tamper Input must be in the non-Tamper

(pressed) state (i.e. open circuit). 7.3.2 External Tamper Do this test if an external tamper switch is wired to the WUSI Tamper Input (Figure 7-3). Make certain that the WUSI is linked to a PIM. Install the WUSI enclosure cover. When the external tamper switch is closed, the PIMs Trouble LED (CR7 or CR10) should be flashing 3 red blinks. When the external tamper switch is open, the PIMs Trouble LED (CR7 or CR10) should not be flashing 3 red blinks for as long as the switch is pressed. Note: The Trouble LED may be flashing other trouble codes, just make certain it is not flashing the Tamper error code: 3 red blinks. NOTE: The External Tamper Input is wired in parallel with the WUSI Tamper Switch, therefore in order to test the External Tamper, the WUSI Tamper Switch must be in the non-Tamper (pressed) state. 7.3.3 Request to Exit Do this test if a Request to Exit device is wired to the WUSI Portal Inputs (Figure 7-3). Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that the activating the Request to Exit device causes a request to exit to be sent to the CDT or ACP software. Also verify that the request to exit is removed when the Request to Exit device goes inactive. 7.3.4 Door Position Do this test if a Door Position device is wired to the WUSI Portal Inputs (Figure 7-3). Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that the CDT or ACP software can monitor the doors position by opening and closing the door. 7.3.5 Strike Relay Do this test if an electrical lock or load is connected to the Strike Portal Output (Figure 7-3). Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 29 of 44 Panels software (ACP Software), verify that Strike Portal Output can control the electrical lock or load. 7.3.6 Card Reader Do this test if a card reader or keypad is connected to the Card Reader (Figure 7-3) connector. Using either the Recognition Sources Configuration and Demonstration Tool (CDT) or the Access Control Panels software (ACP Software), verify that the card reader or keypad is sending the correct data. 7.4 Re-linking a WUSI and WPIM To re-link a WUSI and WPIM, follow the instructions in Section 7.2. 7.5 Changing the RF Channel At the WPIM, change DIP switch SW7 to the desired new RF channel (Section 2.3), place the WPIM in Link Mode (see Section 2.4), then re-link the desired WUSI (Section 7.2). NOTE: The WPIMs RF channel DIP switch (SW7) is read when the WPIM enters the Link Mode. If the DIP switch is changed while the WPIM is in the Link Mode, then the WPIM must be taken out of Link Mode and put back into Link Mode for the new RF channel to be selected. The WPIM is taken out of Link Mode by pressing the switch associated with the Access Point that is in the Link Mode (S1 or S2). NOTE: Changing the RF channel will require all WAPMs linked to the WPIM to be re-linked. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 30 of 44 8. Wireless Portable Reader (WPR) The Wireless Portable Reader (WPR) is a product in the Recognition Sources Wyreless Access Point Module (WAPM) category. Figure 8-1 Wireless Portable Reader (WPR) with Proximity Reader P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 31 of 44 8.1 The WPR Audio/Visual Indicators Action LED Indication 2a 1 WPR is powered and then displays software version number If linking, WPR sends a link request

(up to 3 times per RF channel) looking for a WPIM in link mode If linking, WPR & WPIM do an Packet-Error-Rate test for about 20 seconds If linking, WPR linked successfully and indicates the RF Channel on which it linked 2b 2c 2d Or if linking, WPR not linked successfully 3 Card swiped and not read 4 Card swiped and read 5 No communications 6 Invalid card swiped 7 Valid card swiped Low WPR Battery 8 X red flashes then Y green flashes*

1 green flash;

then 1 red flash once for each link request sent flashes for each RF transmission:

green flash for a good transmission red flash for a bad transmission Z green flashes*

2 red flashes none none 1 red flash immediate 1 long red flash delayed about 1-15 seconds W seconds long green flash*

1 long red flash

* X = major software version number (any number is possible) Y = minor software version number (any number is possible) Z = RF channel number that the WPR linked on (1-15) W = green LED stays on for the door unlock time WPR Sounder none none none Z beeps*

1 long beep none 1 beep none 1 beep none 3 beeps 8.2 Turning the WPR On Table 8-1 WPR Indicators The WPR is turned On & Off using the On/Off switch located on the WPR cover (Figure 8-1). When the WPR is turned on, Action 1, Table 8-1 occurs. Actions 2a, 2b, 2c, and/or 2d will only occur if the WPR is being linked (Section 8.3). 8.3 Linking or Re-Linking to the WPIM by Powering the WPR NOTE: Only one WAPM can be linked at a time. 8.3.1 Make certain that that WPIM to be linked to is in the Link Mode (Section 2.4). 8.3.2 Make certain that the WPR is turned off using the On/Off switch (Figure 8-1). 8.3.3 With the WPR turned off, swipe or present a card at the WPR card reader (Figure 8-1) (Section 10.4). 8.3.4 Use the Phillips screwdriver to remove WPR cover. There are 4 cover screws, one in each corner

(Figure 8-1). P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 32 of 44 8.3.5 Locate the Door Position Switch Connector on the WPR PCB (Figure 8-2, DPS1). Temporarily short the two terminals of the Door Position Switch Connector. While keeping these two terminals shorted, turn on the WPR using the On/Off switch (Figure 8-1). Keep the two terminals shorted until the WPR enters the Linking Mode (Table 8-1, actions 2a or 2b). Once the WPR is in the Linking Mode, remove the short. Figure 8-2 WPR PCB Connectors 8.3.6 During linking, the WPIMs LED (CR6 or CR9, depending on the WPR being linked) blinks green

(some intermittent red may be seen) and the WPR LED (Figure 8-1) blinks green (some intermittent red may be seen) for about 20 seconds while the WPR & WPIM determine the integrity of the selected RF channel. 8.3.7 If the WPR & WPIM determine that the RF channel can be used, then the linking is completed successfully and the WPIMs LED (CR6 or CR9, whichever was flashing) turns solid green. The WPR LED blinks green and the sounder beeps, the number of which indicate the RF channel linked. If the WPR & WPIM determine that the RF signal quality is not acceptable then the link fails and the WPR LED blinks red twice and the sounder beeps once (Table 8-1). The WPIM will stay in the Link Mode. If this happens, move either the WPR, PIM, or change RF channels and try the link process again (Section 8.3.1). 8.3.8 Re-install the WPR cover, making certain that no wires are pinched. The cover should go on easy with no interferences. Replace the 4 cover screws, one in each corner (Figure 8-1). 8.3.9 The WPR is now ready to be tested for normal operation. 8.4 Testing the WPR 8.4.1 Magnetic Stripe or Wiegand Card Reader Models 8.4.1.1 Insert a valid card and slide it down the slot keeping its back edge against the back of the readers slot throughout the entire swipe. The reader sounder beeps. 8.4.1.2 The green LED will flash. 8.4.2 Proximity Card Reader Models 8.4.2.1 Place a valid card flat to and within one-quarter inch of the upper part of the Proximity Reader. The reader sounder beeps. 8.4.2.2 The green LED will flash. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 33 of 44 8.4.3 Indication of an Unsuccessful Card Swipe The best indication of an unsuccessful valid card swipe is when the WPRs internal sounder does not beep, indicating that the card was not read correctly. If an invalid card is swiped, the WPRs red LED displays a long flash and the internal sounder beeps once. 8.5 Replacing the WPR Battery Pack, BP12V-001 Approximately one month prior the end of the WPRs Battery Pack life, a Low Battery Trouble signal is indicated at the WPIM (Table 2-3), a Trouble signal will be sent to the access control panel, and the WPR will provide a visual and audible indication (Table 8-1, action 7) consisting of a long red LED flash and three sounder beeps. The WPRs low battery indication (Table 8-1, action 7) will occur whenever the WPRs battery is low and:

the WPR is turned on (after action 1, Table 8-1), the WPR transmits a Heartbeat, or any card is swiped at the WPRs reader. It is then time to replace the WPRs Battery Pack:

8.5.1 Use the Phillips screwdriver to remove WPR cover. There are 4 cover screws, one in each corner

(Figure 8-1). 8.5.2 Locate the used Battery Pack (Figure 8-6), disconnect the used Battery Pack (Figure 8-4), remove the used Battery Pack from its Velcro Strips (Figure 8-3) 8.5.3 Attach a new Battery Pack to the housing using the Velcro strips (Figure 8-3& Figure 8-4). Figure 8-3 WPR Battery Pack Velcro Strips Figure 8-4 WPR Battery Pack Positioned P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 34 of 44 8.5.4 Connect the battery connector to the mating connector coming from the transceiver board (Figure 8-5

& Figure 8-6). Figure 8-5 WPR Battery Connector 8.5.5 To continue to use the WPR on the same RF channel and with the same WPIM, re-install the cover, Figure 8-6 WPR Battery Pack Connected making certain that no wires are pinched. The cover should go on easy with no interferences. Replace the 4 cover screws, one in each corner (Figure 8-1). If the WPR needs to be re-linked or the RF channel needs to be changed, before re-installing the WPR cover, follow the instructions in Section 8.2 or Section 8.6. 8.6 Changing the RF Channel At the WPIM, change DIP switch SW7 to the desired new RF channel (Section 2.3), place the WPIM in Link Mode (see Section 2.4), then re-link the desired WPR (Section 8.2). NOTE: The WPIMs RF channel DIP switch (SW7) is read when the WPIM enters the Link Mode. If the DIP switch is changed while the WPIM is in the Link Mode, then the WPIM must be taken out of Link Mode and put back into Link Mode for the new RF channel to be selected. The WPIM is taken out of Link Mode by pressing the switch associated with the Access Point in the Link Mode

(S1 or S2). NOTE: Changing the RF channel will require all WAPMs linked to the PIM to be re-linked. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 35 of 44 9. Wireless Contact Monitor (WCM) The Wireless Contact Monitor (WCM) is a product in the Recognition Sources Wyreless Access Point Module (WAPM) category. Figure 9-1 Wireless Contact Monitor Figure 9-2 WCM Battery Pack Figure 9-3 Transceiver Control Module with Cover Removed P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 36 of 44 9.1 The WCM Visual Indicators NOTE: LED assembly XXX-XXX-XXX must be installed on the GRN_LED & RED_LED connections of J3 in order for any visual indicators to be seen. Action 1 WCM is powered and then displays 2a WCM is ready to start linking software version number 2b 2c 2d If linking, WCM sends a link request

(up to 3 times per RF channel) looking for a WPIM in link mode If linking, WCM & WPIM do an Packet-Error-Rate test for about 20 seconds If linking, WCM linked successfully and indicates the RF Channel on which it linked 2e Or if linking, WCM not linked successfully LED Assembly on J3 X red flashes then Y green flashes*

1 red flash 1 green flash;

then 1 red flash once for each link request sent flashes for each RF transmission:

green flash for a good transmission red flash for a bad transmission Z green flashes*

2 red flashes

* X = major software version number (any number is possible) Y = minor software version number (any number is possible) Z = RF channel number that the WCM linked on (1-15) 9.2 Linking to the WPIM by Resetting the WCM Table 9-1 WCM Visual Indicators NOTES:

Only one WCM can be linked at a time. The WCM Battery Pack must be installed before linking (Section 9.3). Leaving the WCM cover off for extended periods of time with the Battery Pack connected will shorten the expected battery life. 9.2.1 Make certain that that WPIM to be linked to is in the Link Mode (Section 2.4). 9.2.2 If the WCM cover is installed, use a Phillips screwdriver to remove WCM cover. There are 4 cover screws, one in each corner (Figure 9-3). 9.2.3 Find, press, and release the WCM Reset Switch located below and to the left side of J4 (Figure 9-3). 9.2.4 During linking, the WPIMs LED (CR6 or CR9, depending on the WAPM being linked) blinks green

(some intermittent red may be seen) and the LED Assembly blinks green (some intermittent red may be seen) for about 20 seconds while the WCM & WPIM determine the integrity of the selected RF channel. 9.2.5 If the WCM & WPIM determine that the RF channel can be used, then the linking is completed successfully and the WPIMs LED (CR6 or CR9, whichever was flashing) turns solid green. The LED Assembly then blinks green. The number of green blinks indicates the linked RF channel number. If the WCM & WPIM determine that the RF signal quality is not acceptable then the link fails and the LED blinks red twice (Table 9-1). The WPIM will stay in the Link Mode. If this happens, move either the WCM, PIM, or change RF channels and try the link process again (Section 9.2). P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 37 of 44 9.2.6 Re-install the WCM cover, making certain that no wires are pinched. The cover should go on easy with no interferences. Replace the 4 cover screws, one in each corner (Figure 9-1). 9.2.7 The WCM is now ready for normal operation. 9.3 Replacing the WCM Battery Pack, BP12V-001 Approximately one month prior the end of the WCMs Battery Pack life, a Low Battery Trouble signal is indicated at the WPIM (Table 2-3), a Trouble signal will be sent to the access control panel. NOTE: Make certain no WPIMs are in the Link Mode when replacing the WCM Battery Pack or the WCM may inadvertently link to the wrong WPIM. NOTE: Leaving the WCM cover off for extended periods of time with the Battery Pack connected will shorten the expected battery life. 9.3.1 Use a Phillips screwdriver to remove WCM cover. There are 4 cover screws, one in each corner

(Figure 9-1). 9.3.2 Locate the used Battery Pack (Figure 9-4), disconnect the used Battery Pack, and remove the used Battery Pack from its Velcro Strips. Figure 9-4 Removing the Used Battery Pack 9.3.3 Install the Battery Pack into the Transceiver Control Module enclosure using the Velcro provided AND connect the Battery Pack Connector to its mating connector that is factory connected to J4

(Figure 9-5). Figure 9-5 New Battery Pack Installed P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 38 of 44 9.3.4 To continue to use the WCM on the same RF channel and with the same WPIM, make certain that no WPIMs are in the Link Mode, then press and release the WCM Reset Switch located below and to the left side of J4 (Figure 9-5). This insures that the WCM has started properly. Re-install the WCM cover, making certain that no wires are pinched. The cover should go on easy with no interferences. Replace the 4 cover screws, one in each corner (Figure 9-1). If the WPR needs to be re-linked or the RF channel needs to be changed, before re-installing the WCM cover, follow the instructions in Section 9.1 or Section 9.4. NOTE: No other WPIM can be in Link Mode during this process. 9.4 Re-linking an WCM and WPIM To re-link a WCM and WPIM follow the instructions in Section 9.1. 9.5 Changing the RF Channel At the WPIM, change DIP switch SW7 to the desired new RF channel (Section 2.3), place the PIM in Link Mode (see Section 2.4), then re-link the desired WCM (Section 9.4). NOTE: The WPIMs RF channel DIP switch (SW7) is read when the WPIM enters the Link Mode. If the DIP switch is changed while the WPIM is in the Link Mode, then the WPIM must be taken out of Link Mode and put back into Link Mode for the new RF channel to be selected. The WPIM is taken out of Link Mode by pressing the switch associated with the Access Point that is in the Link Mode (S1 or S2). NOTE: Changing the RF channel will require all WAPMs linked to the PIM to be re-linked. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 39 of 44 10. Other Important Information 10.1 Knowing When to Change the RF Channel The RF Channel should be changed if the system encounters interfering transmissions (most noticeably when the system attempts to Link and cannot or when a card swipe results in a no communication indication at the Access Point). Try re-linking on a different RF channel. If the WAPM and WPIM do not re-link on the new channel, try another channel. For more detailed information, see Wyreless Access Troubleshooting Guide, available from Recognition Source. If the WAPM and WPIM do not re-link, the WAPM reverts to the RF channel it was set at prior to disconnecting the WAPM power. However, the WAPM will not communicate with the WPIM on the original RF channel until the WPIMs DIP switch SW7 is reset to the original RF channel and the WPIM is taken into and out of Link Mode. 10.2 Configuring the Wyreless AccessTM System There are several configurable features in each WAPM & WPIM. These are programmed through the WPIM using a PC and the Recognition Source Configuration & Demonstration Tool. The configurable features are:

Heartbeat time (default: 10 minutes) Relock time (default: 3 seconds) Re-latch on: timer, door opening, or door closing (default: timer) Card conversion (default: none) Polarity of the Request-to-Exit (RTE) signal (default: low = RTE) Polarity of Trouble signal (default: low = trouble) Polarity of Door Position Switch (DPS) signal (default: low = closed) Extended Unlock: enabled or disabled (default: enabled) 10.3 Extended Unlock Extended unlock is a feature that permits a Wyreless Access Point Module (WAPM) to stay in an indefinite unlock state. Normally a card is swiped at a WAPM and if it is a valid card, the Access Point will unlock for a short period of time (seconds) and then automatically relock. This is considered a momentary unlock. A WPIM and WAPM can be configured (section 10.2) to respond to extended unlocks from an access control panel. The WPIM monitors the state of the access control panels strike relay. When the strike relay is energized without the WPIM presenting card data (i.e. no card swipe has occurred) to the access control panel, then the next time the WAPM communicates with the WPIM (card swipe, door state change, request to exit, or heartbeat), the WPIM will tell the WAPM to unlock its portal (door, gate, etc.) indefinitely. When the WPIM detects that the strike relay is de-energized, then the next time the WAPM communicates with the WPIM (card swipe, door state change, request to exit, or heartbeat), the WPIM will tell the WAPM to lock its portal (door, gate, etc.) indefinitely. The extended unlock feature is most likely to be used to implement a timed unlock. For instance, wanting a business main entry doors unlocked during normal business hours (i.e. 8-5). P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 40 of 44 Note: The exact time that the Access Point will be unlocked or locked depends on the frequency of RF activity between the WAPM and the WPIM. Generally the WAPM is in a low power mode (i.e. sleeping) and therefore the WPIM can only communicate with the WAPM when the WAPM initiates the communication. The Heartbeat time will determine the maximum time that it will take for a WAPM to respond to the start or end of an extended unlock. For instance, lets say that the Heartbeat time is set to 10 minutes and that we want the Access Point to be unlocked from 8-5. We would program the access control panel to unlock the Access Point at 7:50 and lock it at 5:00. The WAPM would unlock sometime between 7:50 & 8:00 and would lock sometime between 5:00 & 5:10. 10.4 Why Swipe a Card When the Power Is Disconnected?

When linking or re-linking, the instructions say to swipe a card after the power has been removed from the WAPM that will be linked or linked, why?

Most of the time a WAPM is in a very lower power mode to conserve energy and extend battery life. Therefore when power is removed, if a WAPM is in its low power mode, it will stay powered for several minutes due to capacitance in the DC regulator on the PCB. Swiping a card will cause the WAPM to go to a high power mode which will collapse any residual power. This will insure that the WAPM will start from reset when power is reapplied. If a card is not swiped and power is reapplied, no damage is done, but if power has only been removed for a short time, the WAPM (specifically the WPR) will not reset. The WAPM will just continue to operate as if power had never been removed. If the WAPM does not reset when power is reapplied, then the WAPM link mode will not be entered, which may have been the primary reason for cycling power. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 41 of 44 For questions regarding Wyreless Access:

11. Contacting Recognition Source

(630) 762-4450

(630) 762-4444 fax P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 42 of 44 12. FCC Compliance & Warnings 12.1 FCC Compliance This device has been authorized by the FCC Rules and Industry Canada. This device complies with the limits for a Class B digital device and a Class B intentional radiator, pursuant to Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) This device may cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The Wyreless Access System Component must be installed by qualified professionals or contractors in accordance with FCC part 15.203, Antenna Requirements. Do not use any antenna other than the one provided with the unit. 12.2 Warnings RF Exposure - To comply with FCC RF exposure requirements for mobile transmitting devices this transmitter should only be used or installed at locations where there is normally at least a 20 cm separation between the antenna and all persons. Do not co-locate and operate in conjunction with any other antenna or transmitter. Use only the Battery Pack specified in this instruction manual. Do not subject Battery Pack to fire or high temperatures. Do not attempt to recharge, short out or disassemble Battery Pack. Follow local regulations for alkaline battery disposal. Immediately remove the batteries and discontinue use if:

- the product is impacted after which the interior is exposed, or

- the product emits a strange smell, heat, or smoke. Changes or modifications not expressly approved by Recognition Source could void the users authority to operate the equipment. P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 43 of 44 13. Revision History Version x001 x001.1 Date 09/09/03 12/08/03 Changes preliminary in house release for comments deleted PIM & PIM-OTD sales models, deleted IRL section, added WRI, WISI, WUSI, WPR, & WCM sections P/N: M053-xxx-x001.1 3820 Stern Avenue St. Charles, IL 60174

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PPPRRREEELLLIIIMMMIIINNNAAARRRYYY INSTALLATION INSTRUCTIONS PANEL INTERFACE MODULE

(PIM) Includes Installation Instructions for:

PIM, PIM-OTD, PIME, PIME-OTD, & PIM-OTD-485 3820 Stern Avenue St. Charles, IL 60174 Phone: 630-762-4450 Fax: 630-762-4455 P/N: M053-xxx-x001 Recognition Source, LLC 3820 Stern Avenue St Charles, IL 60174

(630) 762-4450

(630) 762-4455 Fax Copyright 2003 Recognition Source, LLC, all rights reserved. No part of this document can be reproduced, transmitted, or transcribed in any form by electrical, mechanical, optical, manual, or otherwise without the prior written consent of Recognition Source. Recognition Source reserves the right to alter or revise the content of this document as needed to support future product revisions, without obligation to notify any persons of specific changes. The use of trademarks, trade names, or other product identification is solely for reference purposes. All other product brand names are trademarks or registered trademarks of their respective holders. Recognition Source believes the information in this document to be accurate and reliable. Recognition Source does not guarantee results from the use of this information. Recognition Source assumes no responsibility, obligation, or liability for the information presented in this document. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 2 of 26 INSTALLATION INSTRUCTIONS Wyreless Access Panel Interface Module (PIM) NOTE: These instructions are for installing the Panel Interface Module (PIM), a component of a Wyreless Access System. After completing this installation refer to the Configuring and Operating the Wyreless Access System manual. Table of Contents 3. 1. Wyreless AccessTM System Components............................................................................................................4 1.1 Overview .......................................................................................................................................................4 1.2 Panel Interface Module (PIM) Components & Sales Models........................................................................5 2. Determining the Best PIM Location ..................................................................................................................7 2.1 PIM Location Guidelines...............................................................................................................................7 2.2 Pre-installation Wyreless Access Test ......................................................................................................7 Installing the Panel Interface Module (PIM) ....................................................................................................9 3.1 How to determine the version of PIM PCB...................................................................................................9 3.2 PIM PCB Functional Components ..............................................................................................................11 3.3 Tools Hardware Required.........................................................................................................................12 3.4 Mounting the PIM........................................................................................................................................13 3.5 Installing the Antenna..................................................................................................................................14 3.6 Connecting the RS232 PIM PCB to the Access Control Panel....................................................................15 3.7 Connecting the RS485 PIM PCB to the Access Control Panel....................................................................18 Installing a Panel Interface Module Extender ................................................................................................21 Installing an Extender in a PIM Enclosure ..................................................................................................21 4.1 4.2 Installing an Extender in a PIM-OTD Enclosure.........................................................................................21 5. PIM/PIME Cable/Wire Specifications.............................................................................................................23 6. Contacting Recognition Source ........................................................................................................................24 7. FCC/UL Compliance & Warnings...................................................................................................................25 7.1 FCC Compliance .........................................................................................................................................25 7.2 UL Compliance............................................................................................................................................25 7.3 Warnings......................................................................................................................................................25 8. Revision History.................................................................................................................................................26 4. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 3 of 26 1. Wyreless AccessTM System Components 1.1 Overview Every access control system that uses Wyreless AccessTM contains two different types of modules (Figure 1-1):

at least one Wyreless Panel Interface Module (WPIM), and at least one Wyreless Access Point Module (WAPM) Figure 1-1 Wyreless Access System Block Diagram Recognition Sources product line contains several different expressions of each module. The WPIMs are wired to access control panels and usually are installed very close to the access control panels. The WPIMs installation locations are determined by the location of the WAPMs with which they will communicate using RF. The WAPMs are installed at access points where access will be controlled and/or monitored. Depending on the application and which WAPM is used, some wiring at the access point may be required. Regardless of which WPIM or WAPM module is used, the communication link between the WPIM and WAPM is always RF. This manual describes the installation of a Panel Interface Module (PIM) or a Panel Interface Module Expander (PIME), both of which are WPIMs P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 4 of 26 1.2 Panel Interface Module (PIM) Components & Sales Models The PIM is the wireless interface to an access control panel. The PIM can be ordered with one of two possible enclosures: PIM or PIM-OTD. Table 1-1 shows these two models, what PIM Expander, and what antenna each uses. Sales Model PIM PIM-OTD Closed Enclosure Opened Enclosure Expander Antenna PIME whip only PIME-OTD internal c Table 1-1 PIM Enclosure Variations P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 5 of 26 LOCATION ACCESS CONTROL PANEL INTERFACE/DESCRIPTION MODEL ENCLOSURE MAXIMUM NUMBER OF WAPMs PIM PIM-OTD PIM-OTD-485 PIME PIME-OTD plastic plastic plastic n/a n/a 2 2 16 2 2 indoor indoor indoor indoor indoor Table 1-2- PIM Sales Model Table Magnetic (clock & data) or Wiegand (data1/data0) Magnetic (clock & data) or Wiegand (data1/data0) RS485 Magnetic (clock & data) or Wiegand (data1/data0) Magnetic (clock & data) or Wiegand (data1/data0) P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 6 of 26 2. Determining the Best PIM Location It is important to determine the best mounting location for the PIM to insure that reliable RF communications between the PIM and its WAPMs can be achieved. Please refer to the WAPM installation manual for determining the best location for the WAPM. 2.1 PIM Location Guidelines NOTE: A WAPM located with a substantial steel barrier intervening between it and the PIM may require alternate PIM placement in order to ensure reliable RF communications. In these applications, mount the PIM remote from the access control panel. Choose the PIM location to prevent shadowing of the WAPM from PIM radio transmissions. 2.1.1 If the PIM and WAPM are to be used in a line of sight application (i.e. the PIM antenna can visually see the WAPM antenna with no obstructions), then the maximum distance between the PIM and WAPM is 1000. If the WAPM is an IRL, then the maximum distance is 600. 2.1.2 If the PIM and WAPM are to be used in a building using normal construction, then the maximum distance between the PIM and WAPM is 200 horizontally. 2.1.3 Always try to install the PIM on the same floor of a building as the WAPMs it controls. 2.1.4 If WAPM(s) are on another floor of a building (one floor up or down), cut the range by 100 feet for each floor away from the PIM. 2.1.5 Never install the PIM more than 1 floor away from its WAPMs. 2.1.6 Never install the PIM in an all cinder block, concrete or metal room. 2.1.7 If possible, install the PIM halfway between all the WAPMs it will control and never more than 200 feet away from any. Remember to include the WAPMs that will be controlled by a PIME, if one is used. 2.1.8 Always mount the PIM so the antenna is vertical for best performance. 2.1.9 Install the PIM as far above the floor as possible, 6 feet is usually optimum for operation and maintenance. 2.1.10 If possible, mount the PIM so that is there are the minimum number of obstacles between the antennas of the PIM and the WAPM. 2.1.11 Line-of-sight means no obstructions ever. If obstructions like moving vehicles can block the line-of-

sight, even if for very short times, reduce the specified range in half. 2.1.12 A PIM must, in all directions (sides, top, bottom, and back), have a minimum 3 separation from any metal surface. Therefore if the PIM must be mounted on a metal surface, though not recommended, a user supplied 3 non-metallic spacer (i.e. wood) must be provided. A PIM-OTD must, in all directions (sides, top, bottom, and back), have a minimum 1 separation from any metal surface. Therefore if the PIM-OTD must be mounted on a metal surface, though not recommended, the supplied 1 spacer kit (K384-003-001) must be used. 2.2 Pre-installation Wyreless Access Test Once the best locations for the PIM and WAPM(s) have been determined, use this procedure to check performance prior to installation:

2.2.1 As close as possible to its exact mounting location, temporarily mount the WAPM to the access control point (i.e. a door, a gate, an elevator). Do not connect battery pack yet. 2.2.2 Temporarily mount PIM in the exact location and orientation it is intended to be mounted. 2.2.3 Install the PIM antenna as indicated in Section 3.5. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 7 of 26 2.2.4 Power the PIM temporarily with a 12-volt battery capable of delivering 300 mA by connecting it to J1 positive left, negative right (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). 2.2.5 Put the PIM into Link Mode (S1 or S2) for the WAPM (A or B) being tested (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). 2.2.6 Go to the access control point being tested. Make sure the access control point is in its secure state

(i.e. closed). Connect battery. Verify that linking has occurred. Successful linking is indicated at the WAPM by the green LED flashing and optionally by an internal sounder beeping. The number of green flashes and audible beeps should be the same as the channel number that the PIM is set to. This linking process can take from 20-60 seconds to complete. 2.2.7 If linking occurred successfully, link second WAPM similarly, then proceed with installing the WAPM(s) and PIM. 2.2.8 If linking does not occur successfully, move the PIM 6-10 inches in any convenient direction (up, down, sideways) and repeat until all WAPMs link successfully. Once the linking is successful, then proceed with installing the WAPMs and PIM. 2.2.9 If still not successful, change channels and repeat or move PIM closer to the WAPMs and repeat. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 8 of 26 3. Installing the Panel Interface Module (PIM) There are two versions of the PIM printed circuit board (PCB): RS232 (Figure 3-1), and RS485 (Figure 3-2). 3.1 How to determine the version of PIM PCB The version of PIM PCB being installed can be identified by observing which connectors are installed on the PCB. Compare the board being installed toFigure 3-1, and Figure 3-2. 3.1.1 RS232 PIM PCB (Figure 3-1) If the RS232, 9-pin connector, J5, is installed and the RS485, 5-pin terminal block, J7, is missing then it is a RS232 PIM PCB 3.1.2 RS485 PIM PCB (Figure 3-2 The RS485 PIM PCB can be uniquely identified in one of two ways:

If the RS232, 9-pin connector, J5, is installed and the RS485, 5-pin terminal block, J7, is installed it is a RS485 PIM PCB If the Access Point A, 8-pin panel connector, J3 and the Access Point B, 8-pin panel connector, J4, are missing it is a RS485 PIM PCB P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 9 of 26 Figure 3-1 RS232 PIM & PIME Printed Circuit Board (PCB) P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 10 of 26 Figure 3-2 RS485 PIM & PIME Printed Circuit Board (PCB) 3.2 PIM PCB Functional Components NOTE: The components on the left side of the PIM PCB are for Access Point A (AP A) while components on the right are for Access Point B (AP B). 3.2.1 Access Control Panel Connections PIM signal wiring connections to an access control panel are accomplished using two 8-Pin Connectors. J3 is used to connect Access Point A (AP A) and J4 is used for Access Point B (AP B)

(depending on PIM PCB being used see Figure 3-1 or Figure 3-2). 3.2.2 DC Power Connection DC power is connected to the PIM via connector J1. Positive is the left pin, negative is the right pin

(depending on PIM PCB being used see Figure 3-1 or Figure 3-2). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 11 of 26 3.2.3 RS485 Connection A serial RS485 connection can be made to the PIM using connector J6. This connection is used for system configuration and future features (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about system configuration please refer to the Configuring & Operating a Wyreless Access System manual and the Configuration & Demonstration Tool (CDT) manual. 3.2.4 PIM RF Channel & Status The RF channel to be used to communicate with the Access Points is selected using a 4 position, single pole, single throw DIP switch SW7 (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). The overall status of the PIM is indicated using the green LED, CR15. For additional information about setting the RF channel and how the PIM status is displayed please refer to the Configuring & Operating a Wyreless Access System manual. 3.2.5 Access Point Link & Status A PIM/Access Point link mode process is initiated using a Link Switch, either S1 for AP A or S2 for AP B (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). The status of an Access Point is indicated using two LEDs: one for the real time status and one for trouble status. A red/green LED is used for real time status: CR9 for AP A and CR6 for AP B. A red LED is used for trouble status: CR10 for AP A and CR7 for AP B (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about Access Point linking and status please refer to the Configuring &

Operating a Wyreless Access System manual. 3.2.6 PIM Reset Switch Switch S3 is provided to reset the PIM without having to cycle power (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about the PIM Reset switch please refer to the Configuring & Operating a Wyreless Access System manual. 3.2.7 PIM Programming Connector A programming connector (J2) is provided to allow new PIM firmware versions to be installed

(depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about PIM programming, please refer to the Configuring & Operating a Wyreless Access System manual. 3.2.8 PIM Tamper Switch A tamper switch (SW1) is provided to indicate when the PIM enclosure cover is open (depending on PIM PCB being used see Figure 3-1 or Figure 3-2). For additional information about PIM tamper switch refer to the Configuring & Operating a Wyreless Access System manual. 3.3 Tools Hardware Required Hammer 9/32 drill bit Flat and Phillips head screwdrivers (1/8 wide flat blade for screw terminals) Pencil P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 12 of 26 Mounting Kit (K381-000-001), provided, including four #8 X 1 screws and four heavy-duty anchors Mounting Kit (K384-003-001), provided, including four #8 X 2 screws and four 1 round by 1 high (1 O.D. x 1) spacers 3.4 Mounting the PIM 3.4.1 PIM If installing a PIM, see Table 1-1, PIM column, use this procedure:

3.4.1.1 Remove the desired knockout with the screwdriver and hammer. 3.4.1.1.1 To remove the inner electrical metallic tubing (conduit) knockout, place screwdriver blade into inner groove and strike top of screwdriver handle with a hammer. 3.4.1.1.2 To remove the outer electrical metallic tubing (conduit), repeat the above procedure but place the screwdriver blade in the outer groove. 3.4.1.2 If the PIM is to be mounted on a metal surface, install a 3, non-metallic spacer (i.e. wood) to the metal surface first, then proceed, as described below, to fasten the PIM to the non-metallic spacer. 3.4.1.3 Place the PIM with its door opened, against the wall or against installed non-metallic spacer in the position it was successfully link tested (Section 2.2) 3.4.1.4 Using the four mounting holes in the back of the PIM housing as a template, mark these holes with a pencil. 3.4.1.5 Set the PIM down and drill the four holes with a 9/32 diameter drill bit, 1 deep. 3.4.1.6 Insert the four anchors provided firmly into the holes so they are flush with the wall or the non-

metallic spacer. 3.4.1.7 Screw in the four screws provided to attach the PIM to the wall or the non-metallic spacer. 3.4.2 PIM-OTD If installing a PIM-OTD, see Table 1-1, PIM-OTD column, use this procedure:

3.4.2.1 When using the internal C antenna with the PIM-OTD or PIME-OTD, wire routing inside the enclosure is very important. Improper wire routing will reduce the RF range. Keep the wires inside the enclosure as short as possible (i.e. do not coil an excess wire inside the enclosure).

(Figure 3-3 & Figure 3-4). Figure 3-3 Improper Wire Routing Figure 3-4 Proper Wire Routing There are dimples on the sides and bottom of the PIM-OTD enclosure indicating the only proper place to drill holes (Figure 3-5 and Figure 3-6). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 13 of 26 Figure 3-5 - PIM-OTD Dimples for Hole Drilling Figure 3-6 PIM-OTD Dimples for Hole Drilling NOTE: There are two dimples on the top of the PIM-OTD enclosure. These are for remote antenna installation and are not to be used for signal/power wiring. Using these dimples, drill hole(s) in the PIM-OTD enclosure, to accommodate the size and number of entry/exit connectors to be used. NOTE: When drilling, make certain that the drill bit does not damage any electronics inside the enclosure. Use light drill pressure so that the bit does not enter the enclosure very far when the bit breaks through the inside of the enclosure. 3.4.2.2 Place the PIM-OTD, with its cover removed, against the wall in the position it was successfully link tested (Section 2.2) 3.4.2.3 Using the four mounting holes in the corner of the PIM-OTD housing as a template, mark these holes with a pencil. 3.4.2.4 Set the PIM-OTD down and drill the four holes with a 9/32 diameter drill bit, 1 deep. 3.4.2.5 Insert the four anchors provided (kit: K381-000-001) firmly into the holes so they are basically flush with the wall. 3.4.2.6 If the PIM-OTD is to be mounted on a non-metallic surface use the #8, 1 screws provided

(kit: K381-000-001) to attach the PIM-OTD to the wall.. If the PIM-OTD is to be mounted on a metallic surface use the 1 round by 1 high (1 O.D. x 1) spacers and the #8, 2 screws provided (kit: K384-003-001) to attach the PIM-OTD 1 from the wall. 3.5 Installing the Antenna 3.5.1 Omni Whip Antenna (ANT-OMNI) Insert the straight black omni antenna, supplied with the PIM or PIME, into the hole at the top of the PIM housing and tighten the screw. Do not over tighten. 3.5.2 Internal C Antenna If the internal C antenna is to be used, then no antenna installation is required. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 14 of 26 3.6 Connecting the RS232 PIM PCB to the Access Control Panel Review the PIM Functional Components from Section 3.1 before connecting the RS232 PIM PCB to an access control panel. Caution: Disconnect the access control panels power and standby batteries while wiring the PIM to the panel. Warning! Because each access control panel is different, always check the panels instruction manual for appropriate interface wiring. Use shielded 8-conductor wire for the signal wiring between PIM and the access control panel. Refer to Table 5-1 for maximum wiring lengths and cable specifications. There are 6 different wiring connections that need to be made between the PIM and the Access Control Panel. These 6 connections need to be made for each of the Access Points on the PIM if both are used:

3.6.1 DC Power (required) Refer to J1 section of Table 3-2 for how to connect DC power to the PIM. This connection is always required regardless of the system application or configuration. 3.6.2 Access Point Card Reader (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Card Reader signals from the PIM to the access control panel. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.2.1 The Card Reader signals on earlier PIM versions are driven by open-collector (open drain) devices. If the access control panel does not have internal pull-up resistors then external pull-up resistors (external to the access control panel) will need to be installed. See Recognition Source Application Note A664-006-xxx: When Are PIM External Pull-Up Resistors Needed?

3.6.2.2 Later versions of the PIM RS232 PCB have optional pull-up resistors on the PCB. These pull-

up resistors are enabled or disabled using PCB shorting blocks (jumpers) (Table 3-2). The PIM RS232 with pull-up resistors on the PCB are shipped with the pull-ups enabled. Shorting Block J10 J9 J8 J6 Signal CLK/D1 AP A Pull-ups DATA/D0 CLK/D1 AP B Pull-ups DATA/D0 Pull-ups Enabled

(1Kohm to +5 VDC) shorted shorted shorted shorted Pull-ups Disabled

(open collector) open open open open Table 3-1 PIM RS232 Pull-up Resistor Options 3.6.3 Access Point Strike Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Strike signal from the access control panel to the PIM. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.4 Access Point (Door) Position Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Access Point (Door) Position Switch signal from the PIM to the access control panel. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.5 Access Point Request to Exit Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Request to Exit signal from the PIM to the access control panel. This connection is optional depending on the system application or P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 15 of 26 configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. 3.6.6 Access Point Trouble Signal (optional) Refer to J3/J4 section of Table 3-2 for how to connect the Trouble signal from the PIM to the access control panel. This connection is optional depending on the system application or configuration. Make certain there is at least one signal ground connection between the PIM and the access control panel. After all required connections have been made connect the power and standby batteries to the panel. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 16 of 26 DESCRIPTION/EXPLANATION PIM inputs for 12 VDC power. The PIM works from 7 to 14 VDC, and draws 250mA max during transmit. The access control panels reader power outputs may not source enough current for the PIM. If this is the case use the access control panels main regulated 12 VDC power supply or a separate UL approved 12 VDC power supply. Observe polarity. PIM input, used to monitor the state of the access panels strike relay. The STRIKE signal should be connected to the normally open terminal of the strike relay. The GROUND signal should be connected to the common terminal of the strike relay. This connection only needs to be made if the Access Point needs to be unlocked (door) or raised (gate). The PIM circuit is designed for connection to dry strike relay contacts (i.e. no external voltage should be applied to the strike relay contacts). If the access control panel does not have dry strike relay contacts, please contact Recognition Source for interfacing advice (section 6). PIM open collector output, used to indicate when the Access Point is making a request to exit and needs to be connected to the access control panels request to exit input

(15 VDC max, 50ma max). This connection only needs to be made if the Access Point needs to have a request to exit function. Default configuration: low = request to exit. Logic polarity configurable. PIM open collector output, used to indicate the position of the Access Points portal:

open or closed (15 VDC max, 50ma max). This connection only needs to be made if the Access Point needs to know the Access Points portal state. Default configuration: low = door closed. Logic polarity configurable. PIM open collector output, used to indicate that the Access Point has some type of trouble that needs attention or maintenance (15 VDC max, 50ma max). This connection only needs to be made if the Access Point trouble status needs to be monitored Default configuration: low = trouble. Logic polarity configurable. PIM outputs shipped with 1Kohm pull-up resistors to +5VDC option enabled

(configurable to open collector by removing PCB jumpers), used to present card data to the access control panel. Generally, if the Access Point uses a magnetic reader then the PIM will present clock & data signals to the access control panel. If the Access Point uses a Wiegand or Proximity reader then the PIM will present data1/data0 signals to the access control panel. It is easy to get these signals reversed, if the first hookup fails to work, try switching the wires at these terminals. (6 VDC max, 50ma max). Refer to section 3.6.2 above, for pull-up resistor options for these signals. Default configuration: pull-up resistors = enabled. Configurable via PCB jumpers. This is a common signal ground for the EXIT REQ, DOOR STAT, TROUBLE, DATA/D0, and CLK/D1 signals. A RS232 communications port used with Wyreless Access system configuration tool. For additional information please refer to the Configuring & Operating a Wyreless Access System manual and the Configuration & Demonstration Tool (CDT) manual. PIM PIM SIGNAL J1 12V+

12V-

ACCESS PANEL SIGNAL

+7-14 VDC DC Ground STK-NO Normally Open Strike Relay Contact STK-COM Common Strike Relay Contact EXIT REQ Request To Exit Input J3 for Access Point A DOOR STAT Door Status Input J4 for Access Point B TROUBLE General Purpose Alarm Input DATA/D0 Data or Data 0 Input CLK/D1 Clock or Data 1 Input GROUND Signal Ground PIN 2 PIN 3 PIN 5 TD Transmit Data RD Receive Data Signal Ground J5 Table 3-2 RS232 PIM to Access Control Panel Connections P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 17 of 26 3.7 Connecting the RS485 PIM PCB to the Access Control Panel Review the PIM Functional Components from Section 3.1 before connecting the RS485 PIM to an access control panel. Caution: Disconnect the access control panels power and standby batteries while wiring the PIM to the panel. Warning! Because each access control panel is different, always check the panels instruction manual for appropriate interface wiring. Use shielded 3 or 5 conductor wire for the signal wiring between PIM and the access control panel. Refer to Table 5-1 for maximum wiring lengths and cable specifications. There are 2 different wiring connections that need to be made between the PIM and the Access Control Panel. 3.7.1 DC Power (required) Refer to J1 section of Table 3-3 for how to connect DC power to the PIM. This connection is always required regardless of the system application or configuration. 3.7.2 RS485 Connections (required) Refer to J7 section of Table 3-3 for how to connect the RS485 signals from the RS485 PIM to the access control panel. Notes about making a RS485 connection: There is some confusion about the A and B designations for the RS485 signals. The EIA RS-485 Specification labels the data wires as A and B but many RS485 products label their wires + and -. Some products associate the + signal with A, some with B. The bottom line is that the + should always be connected to the + and the - to the - however it is designated. Reversing the polarity will not damage either RS485 device, it just wont communicate. So take your best guess (a 50/50 chance) about connecting + to

+ and - to - and if it doesnt work, switch them!

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(630) 762-4444 fax Page 18 of 26 DESCRIPTION/EXPLANATION PIM inputs for 12 VDC power. The PIM works from 7 to 14 VDC, and draws 250mA max during transmit. The access control panels reader power outputs may not source enough current for the PIM. If this is the case use the access control panels main regulated 12 VDC power supply or a separate UL approved 12 VDC power supply. Observe polarity. A RS232 communications port used with Wyreless Access system configuration tool. For additional information please refer to the Configuring & Operating a Wyreless Access System manual and the Configuration & Demonstration Tool (CDT) manual. A full or half duplex, 2 or 4 wire, bi-directional RS485 communications port for interfacing to access control panels. For a 2 wire RS485 installation refer to Table 3-4 For a 4 wire RS485 installation refer to Table 3-5 Note: Transmit and Receive nomenclature are with respect to the PIM (i.e. Transmit = data sent from the PIM, Receive = data sent to the PIM) PIM PIM SIGNAL J1 J5 J7 ACCESS PANEL SIGNAL

+7-14 VDC DC Ground TD Transmit Data RD Receive Data Signal Ground Signal Ground TB+

+ Transmit Data RB+

TA-

RA-

+ Receive Data

- Transmit Data

- Receive Data Table 3-3 RS485 PIM to Access Control Panel Connections PIM1 Description Signal Ground PIM +Transmit Data PIM +Receive Data PIM Transmit Data PIM Receive Data Access Control Panel (ACP)2 Signal Description Ground

+ RS485 ACP Signal Ground ACP +RS485 Data

- RS485 ACP RS485 Data 1 PIM Transmit and Receive nomenclature are with respect to the PIM 2 ACP Transmit and Receive nomenclature are with respect to the ACP Table 3-4 2 Wire RS485 Connections PIM1 Signal Description Signal Ground PIM +Transmit Data PIM +Receive Data PIM Transmit Data PIM Receive Data Access Control Panel (ACP)2 Signal Description Ground

+ RS485 Receive

+ RS485 Transmit

- RS485 Receive

- RS485 Transmit ACP Signal Ground ACP +Receive Data ACP +Transmit Data ACP Receive Data ACP Transmit Data 1 PIM Transmit and Receive nomenclature are with respect to the PIM 2 ACP Transmit and Receive nomenclature are with respect to the ACP 12V+

12V-

PIN 2 PIN 3 PIN 5 Signal TB+

RB+

TA-

TB-

TB+

RB+

TA-

TB-

Table 3-5 4 Wire RS485 Connections After all required connections have been made connect the power and standby batteries to the panel. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 19 of 26 This completes the installation of the PIM/PIME. If the Wyreless Access Point Modules (WAPM) that this PIM/PIME will control are not installed yet, now is the time to install them, please refer to the appropriate APC Installation Manual. If the Wyreless Access Point Modules (WAPM) that this PIM/PIME will control are installed, then you are ready to configure your Wyreless Access System, please refer to the Configuring & Operating a Wyreless Access System manual. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 20 of 26 4. Installing a Panel Interface Module Extender The PIM and the PIM-OTD can be expanded to control two additional access points by adding a Panel Interface Module Extender (PIME). To expand the PIM use a PIME, to expand the PIM-OTD use a PIME-

OTD. 4.1 Installing an Extender in a PIM Enclosure Installing a PIME permits one PIM enclosure (indoor) to control two additional access points for a total of four. The PIME is a PCB identical to the PCB in a standard PIM. The PIME mounts in the PIM enclosure to the right of the standard PIM PCB using 6 screws (Figure 4-1). All 6 screws are held in place by retaining washers and screw into threaded bosses inside the PIM enclosure. The top 4 screws use thin fiber retaining washers and the bottom 2 screws use a thicker nylon retaining washer. The retaining washers provide the proper spacing for mounting the PIME and therefore it is very important that the retaining washers be used and that the thicker nylon washers are only used on the bottom two holes. Once the PIME is mechanically mounted in the PIM enclosure, follow the instructions in section 3.5 to install the PIME antenna and connect the PIME to the access control panel. The installation instructions in section 3.5 are written for a PIM, when installing a PIME; substitute PIME where ever PIM is found. NOTE: If the PIME is installed after the PIM was installed it may be necessary to re-evaluate if the current PIM location is optimum for all the WAPMs that this location will control (see section 2). 4.2 Installing an Extender in a PIM-OTD Enclosure Figure 4-1 PIME PCB Location Installing an Extender permits one PIM-OTD enclosure (outdoor) to control two additional access points for a total of four. The PIME-OTD is a PCB identical to the PCB in a standard PIM-OTD. The PIME-

OTD mounts in the PIM-OTD enclosure to the right of the standard PIM-PCB using four 3/8, #6 thread forming screws, provided (Figure 4-2). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 21 of 26 Once the Extender is mechanically mounted in the PIM-OTD enclosure, follow the instructions in section 3.5 to install the Extender antenna and connect the Extender to the access control panel. The installation instructions in section 3.5 are written for a PIM, when installing a PIME-OTD substitute PIME-OTD where ever PIM is found. NOTE: If the PIME-OTD is installed after the PIM-OTD was installed it may be necessary to re-evaluate if the current PIM-OTD location is optimum for all the WAPMs that this location will control (see section 2). Figure 4-2 PIME-OTD PCB Location in a PIM-OTD P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 22 of 26 5. PIM/PIME Cable/Wire Specifications Application DC Power Input RS485 PIM to Access Control Panel Part Number AWG Description Belden 8760 Belden 9842 or 9841 Alpha 1298C 18 24 22 2 conductor 3 conductor shielded 8 conductor shielded Table 5-1 PIM Cable/Wire Specifications Maximum Distance 1,000 1,000 500 P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 23 of 26 For questions regarding Wyreless Access :

6. Contacting Recognition Source

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(630) 762-4444 fax Page 24 of 26 7. FCC/UL Compliance & Warnings 7.1 FCC Compliance This device has been authorized by the FCC Rules and Industry Canada. This device complies with the limits for a Class B digital device and a Class B intentional radiator, pursuant to Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) This device may cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The Wyreless Access System Component must be installed by qualified professionals or contractors in accordance with FCC part 15.203, Antenna Requirements. Do not use any antenna other than the one provided for the unit. 7.2 UL Compliance The Panel Interface Module (PIM) is listed under UL294 as an access control system accessory. Access equipment manufactured and/or sold by Recognition Source, LLC, is not rated for, or intended for use in life safety installations. For UL installations use Recognition Source Power Supply, model PS-12VDCR-500mA UL listed class 2 power supply. For UL installations the Panel Interface Module enclosure (PIM or PIM-OTD) must be mounted in a secure area. 7.3 Warnings RF Exposure - To comply with FCC RF exposure requirements for mobile transmitting devices this transmitter should only be used or installed at locations where there is normally at least a 20 cm separation between the antenna and all persons. Do not co-locate and operate in conjunction with any other antenna or transmitter. Changes or modifications not expressly approved by Recognition Source could void the user's authority to operate the equipment. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 25 of 26 8. Revision History Version X001 Date 09/09/03 Changes preliminary in house release for comments P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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PPPRRREEELLLIIIMMMIIINNNAAARRRYYY INSTALLATION INSTRUCTIONS WIRELESS READER INTERFACE

(WRI) 3820 Stern Avenue St. Charles, IL 60174 Phone: 630-762-4450 Fax: 630-762-4455 P/N: M053-xxx-x001 INSTALLATION INSTRUCTIONS Wireless Reader Interface (WRI) NOTE: These instructions are for installing the Wireless Reader Interface (WRI), a component of a Wyreless Access System. After completing this installation refer to the Configuring and Operating the Wyreless Access System manual. Table of Contents 2. 1. Wyreless AccessTM System Components........................................................................................................3 1.1 Overview .......................................................................................................................................................3 1.2 Wireless Reader Interface (WRI) Components .............................................................................................4 Installing the WRI ...........................................................................................................................................5 2.1 Tools Hardware Required...........................................................................................................................5 2.2 Locating the WPIM and WRI Modules.........................................................................................................5 2.3 Mounting the WRI.........................................................................................................................................8 2.4 Connecting the WRI to its Access Control Peripherals .................................................................................9 Contacting Recognition Source ....................................................................................................................18 FCC Compliance & Warnings......................................................................................................................19 4.1 FCC Compliance .........................................................................................................................................19 4.2 Warnings......................................................................................................................................................19 Revision History.............................................................................................................................................20 3. 4. 5. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 2 of 20 1. Wyreless AccessTM System Components 1.1 Overview Every access control system that uses Wyreless AccessTM contains two different types of modules (Figure 1-1):

at least one Wireless Panel Interface Module (WPIM), and at least one Wireless Access Point Module (WAPM) Figure 1-1 Wyreless Access System Block Diagram Recognition Sources product line contains several different expressions of each module. The WPIM is wired to the access control panel and ideally is installed very close to the access control panel. The WPIMs installation location is determined by the location of the WAPMs with which it will communicate using RF. The WAPM is installed at the access point where access will be controlled and/or monitored. Depending on the application and which WAPM is used, some wiring at the access control point may be required. Regardless of which WPIM or WAPM module is used, the communication link between the WPIM and WAPM is always RF. This manual describes the installation of a Wireless Reader Interface (WRI) which is a WAPM. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 3 of 20 1.2 Wireless Reader Interface (WRI) Components & Sales Models The WRI (Figure 1-4) includes the following components:

2 reader/keypad connectors (#1) strike relay connector (#2) auxiliary relay connector (#3) door position input (#4) request to exit input (#4) request to enter input (#4) tamper input & tamper switch (#5) RS485 port (#6) RF Transceiver (#9) 2 indicator LEDs (#7) flash programming port (#8) Figure 1-2 Front of the WRI Figure 1-3 Inside the WRI Figure 1-4 - WRI Printed Circuit Board P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 4 of 20 MODEL WRI-100-OTD MOUNTING LOCATION indoor/outdoor Surface Table 1-1- WRI Sales Model Table 2. Installing the WRI 2.1 Tools Hardware Required Drill & drill bits (the size will depend on the mounting fasteners used) Mounting hardware (not provided), four diameter screws or bolts and/or anchors, type and length Flat and Phillips head screwdrivers (1/8 wide flat blade for screw terminals) Pencil of fasteners depend on the mounting surface. 2.2 Remote Antenna If the WRI installation uses the Remote Antenna Module (RAM) option, please refer to the Remote Antenna Module Installation manual before proceeding. 2.3 Determining the Best WPIM and WRI Locations Proper selection of WPIM and WRI module mounting locations insures reliable RF communications. The WPIM manual contains a section for determining the best location for the WPIM. The maximum distance between WPIM and a WRI is 200 horizontally when installed inside a building on the same floor that uses normal building construction materials. Never locate the WRI or RAM &

WPIM & RAM more than one (1) floor apart. If on different floors, limit the maximum horizontal distance to 100. The maximum distance is 1000 for a line of sight installation. This section provides additional application specific help and guidelines to select the best mounting location for the WPIM and WRI modules. NOTE: A WRI located with a substantial steel barrier intervening between it and the PIM may require alternate WRI and/or PIM placement in order to ensure reliable RF communications. In these applications, mount the PIM remote from the access control panel. Choose the PIM location to prevent shadowing of the WRI from PIM radio transmissions. RAMs maybe used to get over, under, through, or around obstacles with a limit of 15 cable feet distance between its WRI or WPIM and its RAM. 2.3.1 Outdoor Gate Applications This section describes the ideal mounting locations for the WRI and WPIM to control an outdoor gate

(Figure 2-1). NOTE: If the remote antenna option is used on the WPIM, then the outdoor enclosure version (OTD) of the WPIM is required. The WRI has not been evaluated to UL325. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 5 of 20 WPIM location guidelines for outdoor gate applications:

Figure 2-1 Outdoor Gate Installation Mount the WPIM indoors, within the secured portion of the premises. Install the WPIM just inside the buildings outer wall that faces the gate. If the WRI(s) to be controlled by this WPIM are outdoors, use the remote WPIM antenna option. Mount the Remote Antenna Module outside of the building, in direct line-of-sight to the WRI(s) that it controls. Never install the WPIM in an all metal room or a room with wire screening/mesh in the walls, without the remote WPIM antenna option located outside that room. If a site uses more than one WRI, install the WPIM within direct sight of both WRIs under its control, and never more than 1000 feet away from either. Use a separate WPIM for each WRI if the site geometry makes this necessary. When using the standard WPIM antenna, mount the WPIM 6 feet or more from the floor. WRI Location Guidelines for outdoor gate applications:

Mount the WRI within the secured portion of the premises, in direct line-of-sight to the WPIMs antenna. Orient the WRI upright, preferably on the side of the gate closest (facing) the WPIM. Avoid obstructions between the WRI antenna and WPIM antenna. 2.3.2 Elevator Applications Note: These elevator applications deal only with access control portion and not elevator control. The WRI has not been evaluated to UL508. This section describes the ideal locations to mount the WRI and WPIM to control a typical cabled hoist elevator (Figure 2-2) or a typical hydraulic elevator (Figure 2-3). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 6 of 20 Figure 2-2 Cabled Hoist Elevator Installation Figure 2-3 Hydraulic Elevator Installation 2.3.2.1 Cabled hoist machine installations with upper machine rooms (Figure 2-2) Mount the WPIM inside the secured portion of the premises. For example, mount the WPIM within the secured elevator machine room, and mount remote WPIM antenna inside the shaft, on the ceiling of the shaft. Keep in mind that the remote antenna has a cable length of 15 feet, so locate the WPIM enclosure so that the antenna cable reaches. Mount the assembly such that the WPIM antenna has a direct line of sight to the WRI throughout the entire shaft. No structural members should obstruct its view to the WRI. Mount the WRI on top of the cab, lying down if possible (Figure 2-2). 2.3.2.2 Cabled hoist machine installations with lower machine rooms (Figure 2-3) If the machine room resides at the bottom of the shaft, install the components per section 2.3.2.3, like hydraulic machines. Use the Remote Antenna Module with the WPIM to prevent contamination of the WPIM from settled dust, oil, and debris. 2.3.2.3 Hydraulic Machine Installations (Figure 2-3) Locate the WPIM enclosure in a secured area of the premises, outside of the shaft pit, where it will be free of contamination from oil. Use the Remote Antenna Module with the WPIM. Mount the Remote Antenna Module horizontally in the shaft pit, at a height where oil leakage and debris cannot submerge it. For reliability of communications, the Remote Antenna Module must have a direct line of sight to the WRI throughout the entire shaft. No structural members, including the ram, should obstruct its view of the WRI. Mount the WRI on the underside of the cab. 2.3.3 Indoor WRI Reader & Magnetic Lock Applications These applications include door installations with magnetic locks or strikes, Wiegand or clock & data type readers, and other peripheral hardware. Since these types of installations do not generally have P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 7 of 20 line-of-sight between WPIM and WRI, the specified communication range has a 200 foot limit for normal indoor construction when located on the same floor. Follow the guidelines in the WPIM installation manual. 2.4 Mounting the WRI Four mounting feet and four screws (10-32 X 3/8) are provided with the WRI to permanently attach the WRI enclosure in its desired location. 2.4.1 From the rear of the WRI enclosure, attach the four mounting feet with the four screws as shown in Figure 2-4). The mounting feet must be installed so that the four screw heads are recessed and the hex protrusion on the mounting feet align with the hex recession on the enclosure. Figure 2-4 Rear View of WRI Enclosure 2.4.2 Drilling the Weep Hole - Before the WRI is permanently mounted, determine the lowest point of the WRI enclosure and drill a 1/16 hole from the exterior to the interior. This hole provides an exit for any moisture buildup that might occur due to the weather tightness of the enclosure. NOTE: When drilling, make certain that the drill bit does not damage any electronics inside the enclosure. Use light drill pressure so that the bit does not enter the enclosure very far when the bit breaks through the inside of the enclosure. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 8 of 20 2.4.3 Place the WRI in the desired mounting orientation, on the mounting surface, mark the location of the four mounting holes (one in each mounting foot). 2.4.4 Choose the appropriate type of fasteners (not supplied) for the mounting surface material (i.e. screws for wood, bolts and nuts for metal, screws with anchors for masonry, drywall, or plaster). 2.4.5 At the marks made in section 2.4.3, drill holes in the mounting surface. The hole size will depend on the fastener being used. 2.4.6 Fasten the WRI enclosure to the mounting surface using the selected fasteners and mounting feet holes. 2.5 Getting Wires In & Out of the WRI 2.5.1 Weather Tight Installation A NEMA 4X certified Wiring Gland (Figure 2-5) should be used to achieve a weather tight installation when wires enter or exit the WRI. Wiring Glands are available from Bud Industries, Inc.

(http://www.budind.com/cgi-bin/view?part=n4-cg). The Bud Industries Wiring Gland consists of a black molded nylon body, hex nut, and cable nut and with a rubber gasket and cable seal. The Wiring Glands are available in various sizes. The appropriate size will depend on the number and type of cables used in each installation. Drill hole(s) in the WRI enclosure to accommodate the size and number of Wiring Glands to be used. NOTE: When drilling, make certain that the drill bit does not damage any electronics inside the enclosure. Use light drill pressure so that the bit does not enter the enclosure very far when the bit breaks through the inside of the enclosure. Figure 2-5 Typical Wiring Gland 2.5.2 Non Weather Tight Installation If the WRI is mounted in a location where weather tightness is not a requirement, then use wiring entry/exit connectors that are compliant with local electrical codes (i.e. conduit, etc.) Drill hole(s) in the WRI enclosure to accommodate the size and number of entry/exit connectors to be used. NOTE: When drilling, make certain that the drill bit does not damage any electronics inside the enclosure. Use light drill pressure so that the bit does not enter the enclosure very far when the bit breaks through the inside of the enclosure. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 9 of 20 2.6 Wiring the WRI to its Access Control Peripherals There are seven WRI PCB connectors that provide connections to Access Control Peripherals that the WRI will monitor and/or control (Figure 2-6):

DC Input Power (J3) RS485 (J9) Tamper Input (J2) Portal Inputs (J7) Portal Outputs (J8) Card Reader 1 (J4) Card Reader 2 (J5) Some of the connections are optional based on the specific application of the WRI. Refer to Section 3 for cable and wire specifications for the WRI. Figure 2-6 WRI Printed Circuit Board (PCB) P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 10 of 20 2.6.1 DC Input Power Figure 2-7 Typical Access Point Configuration The DC Input Power connection is mandatory. An external, UL approved, DC power supply that can supply typically 12 VDC (7-14VDC range) must be provided. The DC power supply must be capable of providing 300 mA of current to power the WRI. Add the power requirements of the access control peripherals connected to the WRI to the 300 mA to determine the overall size of the DC power supply. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 11 of 20 Connector J3 (Figure 2-6) is where the DC power is connected to the WRI PCB. Table 2-1 shows how to connect the DC power. Make certain to observe the polarity. Connect the shield of the DC Input Power cable to the Ground (-) terminal at the power supply. Do not connect the cable shield at the WRI (Figure 2-7). DC INPUT POWER 12VDC+

GND J3-1 J3-2 The WRI typically operates from 12 VDC and draws 300mA peak maximum. This does not include the power consumption required by the peripherals (strike, reader, etc). Table 2-1 DC Input Power Connections 2.6.2 RS485 The RS485 connection is for future features and no connection should be made to J9 (Figure 2-6 &

Table 2-2) at this time. The RS485 connection has not been evaluated by UL. RS485 RS485_A RS485_B J9-1 J9-2 For future features. Table 2-2 RS485 Connections 2.6.3 Tamper Input The Tamper Input connection is optional and provides a way of monitoring and external tamper switch. The Tamper Input is in parallel with the Tamper Switch, SW1, on the WRI PCB (Figure 2-6). SW1 monitors the state of the WRI enclosure door and generates a tamper trouble when the door is open. If other possible tamper conditions (i.e. power supply enclosures, gate controllers, etc.) need to be monitored, wire a single pole, single throw (SPST) to the Tamper Input, J2. When terminals J2-1 &

J1-2 are shorted, a tamper trouble signal is generated (Table 2-3). Connect the shield of the Tamper Input cable to the WRI J2-2 terminal (GND). Do not connect the cable shield at the Tamper Switch (Figure 2-7). The Tamper Input connection is not connected in UL installations. TAMPER TAMPER_NC J2-1 J2-2 GND A dry contact closure across these terminals causes a tamper trouble signal to be sent to the ACP Table 2-3 Tamper Input Connections 2.6.4 Portal Inputs The portal inputs consist of a Request to Enter, Request to Exit, and Door Position Switch inputs. Wiring any or all of the Portal Inputs is optional based on the WRI application. All three inputs are expecting an open circuit or a short circuit across their terminals. When terminals J7-1 & J7-2 are shorted, a Request to Enter signal is generated (Table 2-3). When terminals J7-3 & J7-4 are shorted, a Request to Exit signal is generated (Table 2-3). When terminals J7-5 & J7-6 are shorted, a Portal Closed signal is generated. When terminals J7-5

& J7-6 are open, a Portal Open signal is generated (Table 2-3). Connect the shield of the Portal Input cables to the appropriate WRI GND terminal on J7. Do not connect the cable shield at the Request to Enter, Request to Exit, or Door Position Switches (Figure 2-7). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 12 of 20 R_ENTER GND R_EXIT GND DPS GND J7-1 J7-2 J7-3 J7-4 J7-5 J7-6 A dry contact closure across these terminals initiates a request to enter. A dry contact closure across these terminals initiates a request to exit. A dry contact closure across these terminals indicates to the ACP that the access point portal is closed. An open circuit indicates to the ACP that the access point portal is open. Table 2-4 Portal Inputs Connections REQUEST TO ENTER REQUEST TO EXIT DOOR POSITION SWITCH 2.6.5 Portal Outputs The Portal Outputs consist of two relays: Strike Relay Output and Auxiliary Relay Output. Connections to the form C outputs (common, normally open, and normally closed) or each relay are provided. Wiring either of the Portal Outputs is optional based on the WRI application. When the portal is unlocked, the Strike Relay Output turns on indicating that the portal should be unlocked. Therefore the appropriate side of the relay contact (normally open or normally closed) must be used to make certain that when the relay is de-energized that the portal is locked and when the relay is energized that the portal is unlocked. STRIKE RELAY OUTPUT AUXILIARY RELAY OUTPUT STR_NC STR_C STR_NO AUX_NC AUX_C AUX_NO J8-1 J8-2 J8-3 J8-4 J8-5 J8-6 Strike output, isolated form C contact rated 30VAC/VDC, 5A

(silver alloy contacts for heavy loads). Auxiliary relay output - isolated form C contact rated 30 V, 2A. This output in follows the strike output state (gold over silver contacts for dry circuit and loads). Table 2-5 Portal Outputs Connections A Suppressor must be installed with every electrical switching device run through a Portal Output relay contact. The Suppressor protects the WRI from the power generated by the collapsing magnetic field of an electrical load. The Suppressor will maximize the life of the WRI. Follow the Electrical Lock/Load manufacturers recommendation for suppression of magnetic/inductive loads. A properly rated bi-directional Tranzorb (Silicon Avalanche Diode) may also be used. Install the Suppressor within 18 inches of the electrical load (Figure 2-8). NOTE: Portal Outputs must utilize a dedicated shielded cable to prevent transient contamination of other WRI signal wiring. Do not run Portal Output wires in the same cable or conduit as any other WRI wiring. The Portal Output wiring should be at least 12 inches away from any other WRI wiring or it should be run in a separate conduit. Connect the shield of the Portal Output cables to the appropriate WRI J7-6 terminal (GND). Do not connect the cable shield at the Electrical Lock/Load or Auxiliary Load (Figure 2-7). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 13 of 20 Figure 2-8 Portal Output Suppression Diagram P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 14 of 20 2.6.6 Card Readers Any input device with a Wiegand or Clock & Data bit stream can be used with the WRI. A transaction must be a single bit stream of between 8 and 255 bits. Devices which output individual characters/digits are not acceptable. The WRI provides two Card Reader interfaces. These interfaces are in parallel (but buffered for CMOS compatibility). The second reader interface is intended to be used with a Wiegand output keypad for card and PIN operation. Wiring either of the Card Readers is optional based on the WRI application. Take the power requirements of the Card Readers into consideration when sizing the power supply for the WRI and its peripherals (Section 2.6.1). Connections for Card Reader 1 are shown in Table 2-6. Card Reader 2 connections are in Table 2-7. Note that the LED control lines are actually the same signal but brought out to each connector for ease of wiring. This means that that LED inputs on both readers will be driven identically. Connect the shield of the Card Reader 1 cable to the WRI J4-4 terminal (GND). Connect the shield of the Card Reader 2 cable to the WRI J5-4 terminal (GND). Do not connect the cable shield at the Card Readers/Keypad (Figure 2-7). CARD READER 1 CARD READER 2 CLK/D1 J4-1 DATA/D0 J4-2 12VDC+

J4-3 GND J4-4 GRN_LED J4-5 Card Reader inputs, each input line has a 3.3k pull up resistor to 5V, and a 12V transient suppressor to GND. Reader power supply output. The WRI PC board routes its own power supply input to these terminals, so the readers see the same supply as the WRI. If other than 12 VDC is required for the input device, then a separate input device power supply must be used. Make certain that a common ground connection is established between the input devices power supply and the WRI. Green LED signal line. This signal goes to ground through 100ohm when activated. When deactivated, it is pulled up to

+5V through 1.1kohm. RED_LED J4-6 Red LED signal line. Same functionality as GRN line, except RED. Table 2-6 Card Reader 1 Connections CLK/D1 J5-1 DATA/D0 J5-2 12VDC+

J5-3 GND J5-4 GRN_LED J5-5 Card Reader inputs, each input line has a 3.3k pull up resistor to 5V, and a 12V transient suppressor to GND. Reader power supply output. The WRI PC board routes its own power supply input to these terminals, so the readers see the same supply as the WRI If other than 12 VDC is required for the input device, then a separate input device power supply must be used. Make certain that a common ground connection is established between the input devices power supply and the WRI. Green LED signal line. This signal goes to ground through 100ohm when activated. When deactivated, it is pulled up to

+5V through 1.1kohm. RED_LED J5-6 Red LED signal line. Same functionality as GRN line, except RED. Table 2-7 Card Reader 2 Connections P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 15 of 20 P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 16 of 20 3. WRI Cable/Wire Specifications Application DC Power Input RS485 Tamper Request to Enter Request to Exit Strike Relay Output Auxiliary Relay Output Card Reader 1 Card Reader 2 Part Number AWG Description Belden 8760 Belden 9842 or 9841 Belden 8760 Belden 8760 Belden 8760 Belden 8760 Belden 8760 Alpha 1296C Alpha 1296C 18 24 18 18 18 18 18 22 22 2 conductor 3 conductor shielded twisted pair shielded twisted pair shielded twisted pair shielded twisted pair shielded twisted pair shielded 6 conductor shielded 6 conductor shielded Maximum Distance 1,000 1,000 2,000 2,000 2,000 2,000 2,000 500 500 Table 3-1 WRI Cable/Wire Specifications This completes the installation of the WRI. If the Wyreless Panel Interface Module (WPIM) that will control this WRI is not installed, now is the time to install it, please refer to the PIM Installation Instruction manual. If the WPIM is installed, then you are ready to configure your Wyreless Access System, please refer to the Configuring & Operating a Wyreless Access System manual. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 17 of 20 For questions regarding Wyreless Access:

4. Contacting Recognition Source

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(630) 762-4444 fax Page 18 of 20 5. FCC/UL Compliance & Warnings 5.1 FCC Compliance This device has been authorized by the FCC Rules and Industry Canada. This device complies with the limits for a Class B digital device and a Class B intentional radiator, pursuant to Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) This device may cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The Wyreless Access System Component must be installed by qualified professionals or contractors in accordance with FCC part 15.203, Antenna Requirements. Do not use any antenna other than the one provided with the unit. 5.2 UL Compliance The Wireless Reader Interface (WRI) is listed under UL294 as an access control system accessory. Access equipment manufactured and/or sold by Recognition Source, LLC, is not rated for, or intended for use in life safety installations. UL listed panic hardware shall be used to allow emergency exit from the protected area. UL listed compatible readers: HID, Model PROXPOINT. Suitable for outdoor use, ambient temperature: -35oC to +66oC (-31oF to +151oF) Use Recognition Source Power Supply, model PS-12VDCR-500mA UL listed class 2 power supply. 5.3 Warnings RF Exposure - To comply with FCC RF exposure requirements for mobile transmitting devices this transmitter should only be used or installed at locations where there is normally at least a 20 cm separation between the antenna and all persons. Do not co-locate and operate in conjunction with any other antenna or transmitter. Changes or modifications not expressly approved by Recognition Source could void the users authority to operate the equipment. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 19 of 20 6. Revision History Version X001 Date 11/24/03 Changes preliminary in house release for comments P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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PPPRRREEELLLIIIMMMIIINNNAAARRRYYY INSTALLATION INSTRUCTIONS WIRELESS UNIVERSAL STRIKE INTERFACE

(WUSI) 3820 Stern Avenue St. Charles, IL 60174 Phone: 630-762-4450 Fax: 630-762-4455 P/N: M053-xxx-x001 INSTALLATION INSTRUCTIONS Wireless Universal Strike Interface (WUSI) NOTE: These instructions are for installing the Wireless Universal Strike Interface (WUSI), a component of a Wyreless Access System. After completing this installation refer to the Configuring and Operating the Wyreless Access System manual. Table of Contents 2. 1. Wyreless AccessTM System Components........................................................................................................3 1.1 Overview .......................................................................................................................................................3 1.2 Wireless Universal Strike Interface (WUSI) Components & Sales Models ..................................................4 Installing the WUSI.........................................................................................................................................4 2.1 Tools Hardware Required...........................................................................................................................4 2.2 Determining the Best WPIM and WUSI Locations.......................................................................................5 2.3 Mounting the WUSI ......................................................................................................................................6 2.4 Getting Wires In & Out of the WUSI ............................................................................................................7 2.5 Wiring the WUSI to its Access Control Peripherals......................................................................................8 3. WUSI Cable/Wire Specifications .................................................................................................................14 Contacting Recognition Source ....................................................................................................................15 4. 5. FCC Compliance & Warnings......................................................................................................................16 5.1 FCC Compliance .........................................................................................................................................16 5.2 UL Compliance............................................................................................................................................16 5.3 Warnings......................................................................................................................................................16 Revision History.............................................................................................................................................17 6. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 2 of 17 1. Wyreless AccessTM System Components 1.1 Overview Every access control system that uses Wyreless AccessTM contains two different types of modules (Figure 1-1):

at least one Wyreless Panel Interface Module (WPIM), and at least one Wyreless Access Point Module (WAPM) Figure 1-1 Wyreless Access System Block Diagram Recognition Sources product line contains several different expressions of each module. The WPIM is wired to the access control panel and ideally is installed very close to the access control panel. The WPIMs installation location is determined by the location of the WAPMs with which it will communicate using RF. The WAPM is installed at the access point where access will be controlled and/or monitored. Depending on the application and which WAPM is used, some wiring at the access control point may be required. Regardless of which WPIM or WAPM module is used, the communication link between the WPIM and WAPM is always RF. This manual describes the installation of a Wireless Universal Strike Interface (WUSI) which is a WAPM. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 3 of 17 1.2 Wireless Universal Strike Interface (WUSI) Components & Sales Models The WUSI (Figure 1-2 & Figure 1-3) includes the following components:

a reader/keypad connector strike relay connector door position input request to exit input request to enter input tamper input & tamper switch flash programming port RF Transceiver Figure 1-2 Front of the WUSI Figure 1-3 Inside the WUSI MODEL WUSI MOUNTING LOCATION surface indoor Table 1-1- WUSI Sales Model Table 2. Installing the WUSI 2.1 Tools Hardware Required Hammer 9/32 & 3/4 drill bits (the size will depend on the mounting fasteners used) Flat and Phillips head screwdrivers (1/8 wide flat blade for screw terminals) Pencil Mounting Kit (K381-000-001), provided, including four zinc, pan head Phillips, 8-18 X 1 sheet metal screws and four heavy-duty anchors Mounting Kit (K384-003-001), provided, including four #8 X 2 screws and four 1 round by 1 high (1 O.D. x 1) spacers P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 4 of 17 2.2 Determining the Best WPIM and WUSI Locations Proper selection of WPIM and WUSI module mounting locations insures reliable RF communications. The WPIM manual contains a section for determining the best location for the WPIM. The maximum distance between WPIM and a WUSI is 200 horizontally when installed inside a building on the same floor that uses normal building construction materials. Never locate the WUSI and WPIM more than one (1) floor apart. If on different floors, limit the maximum horizontal distance to 100. The maximum distance is 1000 for a line of sight installation. The maximum distance between WPIM and a WUSI is 200 horizontally when installed inside a building that uses normal building construction materials. The maximum distance is 1000 for a line of sight installation. This section provides additional application specific help and guidelines to select the best mounting location for the WUSI Transceiver Control Box:

Mount the WUSI Transceiver Control Box inside the protected area. Mount the WUSI Transceiver Control Box on the wall, at least 55 from the floor Mount the WUSI Transceiver Control Box within 500 cable feet of the Card Reader or other input device Mount the WUSI Transceiver Control Box within 500 cable feet of the Strike. A WUSI must, in all directions (sides, top, bottom, and back), have a minimum 1 separation from any metal surface. Therefore if the WUSI must be mounted on a metal surface, though not recommended, the supplied 1 spacer kit (K384-003-001) must be used. NOTE: A WUSI located with a substantial steel barrier intervening between it and the WPIM may require alternate WUSI and/or WPIM placement in order to ensure reliable RF communications. In these applications, mount the WPIM remote from the access control panel. Choose the WPIM or the WPIMs Remote Antenna location to prevent shadowing of the WUSI from WPIM radio transmissions. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 5 of 17 2.3 Mounting the WUSI 2.3.1 TRANSCEIVER CONTROL BOX A 1 hole is provided in the back of the Transceiver Control Box for routing wires in & out. If needed, additional hole(s) can be drilled in the lower left hand corner of the Transceiver Control Box. Wire routing inside the enclosure is very important. Improper wire routing will reduce the RF range. Keep the wires inside the enclosure as short as possible (i.e. do not coil any excess wire inside the enclosure) (Figure 2-1 & Figure 2-2). Figure 2-1 Improper Wire Routing Figure 2-2 Proper Wire Routing 2.3.1.1 Remove the Transceiver Control Box cover. 2.3.1.2 Place the Transceiver Control Box (cover removed) against the wall in the position it was successfully link tested. 2.3.1.3 Using Transceiver Control Box as a template, mark the four corner mounting holes and the wire hole (if used) with a pencil. 2.3.1.4 Drill a 9/32 hole at each mounting mark, 1 deep, and a hole at the wire hole mark (if used). 2.3.1.5 Insert the four anchors provided firmly into the holes so they are flush with the wall. 2.3.1.6 Depending on the installation, you may want to screw the Transceiver Control Box to the wall now or wait until the rest of the components are installed to facilitate wire routing. If the WUSI is to be mounted on a non-metallic surface use the #8, 1 screws provided (kit:

K381-000-001) to attach the WUSI to the wall.. If the WUSI is to be mounted on a metallic surface use the round 1 high spacers and the #8, 2 screws provided (kit: K384-003-001) to attach the WUSI 1 from the wall. 2.3.2 CARD READER If the installation uses a card reader or other input device, mount it using the manufacturers installation instructions. Route the card reader wires into the Transceiver Control Box. 2.3.3 STRIKE - If the installation uses a strike device, mount it using the manufacturers installation instructions. Route the strike device wires into the Transceiver Control Box. 2.3.4 DOOR POSITION SWITCH If the installation uses a door position switch, mount it using the manufacturers installation instructions. Route the door position switch wires into the Transceiver Control Box. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 6 of 17 2.3.5 REQUEST TO EXIT DEVICE If the installation uses a separate request to exit device, mount it using the manufacturers installation instructions. Route the request to exit device wires into the Transceiver Control Box. 2.3.6 REQUEST TO ENTER DEVICE If the installation uses a request to enter device, mount it using the manufacturers installation instructions. Route the request to enter device wires into the Transceiver Control Box. 2.4 Getting Wires In & Out of the WUSI The back of the WUSI enclosure has a pre-drilled hole for getting wires in & out of the WUSI. For optimum WUSI performance, this wire hole must be used. If holes must be drilled in the WUSI enclosure determine the size and number of entry/exit connectors to be used. Use entry/exit wiring connectors/glands that are compliant with local electrical codes (i.e. conduit, etc.) NOTE: When drilling, make certain that the drill bit does not damage any electronics inside the enclosure. Use light drill pressure so that the bit does not enter the enclosure very far when the bit breaks through the inside of the enclosure. Figure 2-3 Rear of WUSI Enclosure P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 7 of 17 2.5 Wiring the WUSI to its Access Control Peripherals There are seven WUSI PCB connectors that provide connections to Access Control Peripherals that the WUSI will monitor and/or control (Figure 2-4):

DC Input Power Tamper Input Door Position Input Request to Exit Input Request to Enter Input Portal Output Card Reader Some of the connections are optional based on the specific application of the WUSI. Refer to Section 3 for cable and wire specifications for the WUSI. Figure 2-4 WUSI Printed Circuit Board (PCB) Connections P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 8 of 17 Figure 2-5 Typical Access Point Configuration P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 9 of 17 2.5.1 DC Input Power The DC Input Power connection is mandatory. An external, UL approved, DC power supply that can supply typically 12 VDC (7-14VDC range) must be provided. The DC power supply must be capable of providing 300 mA of current to power the WUSI. Add the power requirements of the access control peripherals connected to the WUSI to the 300 mA to determine the overall size of the DC power supply. Figure 2-4 shows where the DC power is connected to the WUSI PCB. Table 2-1 shows how to connect the DC power. Make certain to observe the polarity. Connect the shield of the DC Input Power cable to the Ground (-) terminal at the power supply. Do not connect the cable shield at the WUSI (Figure 2-5). DC INPUT POWER 12VDC+

GND The WSUI typically operates from 12 VDC and draws 300mA peak maximum. This does not include the power consumption required by the peripherals (strike, reader, etc). Table 2-1 DC Input Power Connections 2.5.2 Tamper Input The Tamper Input connection is optional and provides a way of monitoring and external tamper switch. The Tamper Input is in parallel with the Tamper Switch, SW1, on the WUSI PCB. SW1 monitors the state of the WUSI enclosure door and generates a tamper trouble when the door is open. If other possible tamper conditions (i.e. power supply enclosures, gate controllers, etc.) need to be monitored, wire a single pole, single throw (SPST) to the Tamper Input. When terminals TAMPER_NC & GND (Figure 2-4) are shorted, a tamper trouble signal is generated (Table 2-2). Connect the shield of the Tamper Input cable to the WUSI GND). Do not connect the cable shield at the Tamper Switch (Figure 2-5). The Tamper Input connection is not connected in UL installations. TAMPER 2.5.3 Portal Inputs TAMPER_NC GND A dry contact closure across these terminals causes a tamper trouble signal to be sent to the ACP Table 2-2 Tamper Input Connections The portal inputs consist of a Request to Enter, Request to Exit, and Door Position Switch inputs. Wiring any or all of the Portal Inputs is optional based on the WUSI application. All three inputs are expecting an open circuit or a short circuit across their terminals. When terminals R_ENTER & GND (Figure 2-4) are shorted, a Request to Enter signal is generated

(Table 2-3). When terminals R_EXIT & GND (Figure 2-4) are shorted, a Request to Exit signal is generated

(Table 2-3). When terminals DPS & GND (Figure 2-4) are shorted, a Portal Closed signal is generated. When terminals DPS & GND are open, a Portal Open signal is generated (Table 2-3). Connect the shield of the Portal Input cables to the appropriate WUSI GND terminal.. Do not connect the cable shield at the Request to Enter, Request to Exit, or Door Position Switches (Figure 2-5). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 10 of 17 R_ENTER GND R_EXIT GND DPS GND A dry contact closure across these terminals initiates a request to enter. A dry contact closure across these terminals initiates a request to exit. A dry contact closure across these terminals indicates to the ACP that the access point portal is closed. An open circuit indicates to the ACP that the access point portal is open. Table 2-3 Portal Inputs Connections REQUEST TO ENTER REQUEST TO EXIT DOOR POSITION SWITCH 2.5.4 Portal Output The Portal Output consists of a Strike Relay with form C outputs (common, normally open, and normally closed). Wiring of the Portal Output is optional based on the WUSI application. When the portal is unlocked, the Strike Relay Output turns on indicating that the portal should be unlocked. Therefore the appropriate side of the relay contact (normally open or normally closed) must be used to make certain that when the relay is de-energized that the portal is locked and when the relay is energized that the portal is unlocked. STRIKE RELAY OUTPUT STR_NC STR_C STR_NO Strike output, isolated form C contact rated 30VAC/VDC, 5A

(silver alloy contacts for heavy loads). Table 2-4 Portal Output Connection A Suppressor must be installed with every electrical switching device run through the Portal Output relay contact. The Suppressor protects the WUSI from the power generated by the collapsing magnetic field of an electrical load. The Suppressor will maximize the life of the WUSI. Follow the Electrical Lock/Load manufacturers recommendation for suppression of magnetic/inductive loads. A properly rated bi-directional Tranzorb (Silicon Avalanche Diode) may also be used. Install the Suppressor within 18 inches of the electrical load (Figure 2-6). NOTE: The Portal Output must utilize a dedicated shielded cable to prevent transient contamination of other WUSI signal wiring. Do not run the Portal Output wires in the same cable or conduit as any other WUSI wiring. The Portal Output wiring should be at least 12 inches away from any other WUSI wiring or it should be run in a separate conduit. Connect the shield of the Portal Output cables to the appropriate WUSI J7-6 terminal (GND). Do not connect the cable shield at the Electrical Lock/Load (Figure 2-5). P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 11 of 17 Figure 2-6 Portal Output Suppression Diagram P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 12 of 17 2.5.5 Card Reader/Keypad Any input device with a Wiegand or Clock & Data bit stream can be used with the WUSI. A transaction must be a single bit stream of between 8 and 255 bits. Devices which output individual characters/digits are not acceptable. The WUSI provides a Card Reader interface. Wiring of the Card Reader is optional based on the WUSI application. Take the power requirements of the Card Reader into consideration when sizing the power supply for the WUSI and its peripherals (Section 2.5.1). Card Reader connections are shown in Table 2-5. Connect the Card Reader cable shield to the WUSI GND terminal on the Card Reader connector. Do not connect the cable shield at the Card Reader (Figure 2-5). CARD READER CLK/D1 DATA/D0 12VDC+

GND GRN_LED RED_LED Card Reader inputs, each input line has a 3.3k pull up resistor to 5V, and a 12V transient suppressor to GND. Reader power supply output. The WUSI PC board routes its own power supply input to these terminals, so the readers see the same supply as the WUSI. If other than 12 VDC is required for the input device, then a separate input device power supply must be used. Make certain that a common ground connection is established between the input devices power supply and the WUSI. Green LED signal line. This signal goes to ground through 100ohm when activated. When deactivated, it is pulled up to

+5V through 1.1kohm. Red LED signal line. Same functionality as GRN line, except RED. Table 2-5 Card Reader Connections P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 13 of 17 3. WUSI Cable/Wire Specifications Application DC Power Input Tamper Request to Enter Request to Exit Door Position Relay Output Switch Strike Card Reader Part Number AWG Description Belden 8760 Belden 8760 Belden 8760 Belden 8760 Belden 8760 Belden 8760 Alpha 1296C 18 18 18 18 18 18 22 2 conductor twisted pair shielded twisted pair shielded twisted pair shielded twisted pair shielded twisted pair shielded 6 conductor shielded Maximum Distance 1,000 2,000 2,000 2,000 2,000 2,000 500 Table 3-1 WUSI Cable/Wire Specifications This completes the installation of the WUSI. If the Wyreless Panel Interface Module (WPIM) that will control this WUSI is not installed, now is the time to install it, please refer to the PIM Installation Instruction manual. If the WPIM is installed, then you are ready to configure your Wyreless Access System, please refer to the Configuring & Operating a Wyreless Access System manual. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 14 of 17 For questions regarding Wyreless Access:

4. Contacting Recognition Source

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(630) 762-4444 fax P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 15 of 17 5. FCC Compliance & Warnings 5.1 FCC Compliance This device has been authorized by the FCC Rules and Industry Canada. This device complies with the limits for a Class B digital device and a Class B intentional radiator, pursuant to Part 15 of the FCC Rules and with RSS-210 of Industry Canada. Operation is subject to the following two conditions: (1) This device may cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. The Wyreless Access System Component must be installed by qualified professionals or contractors in accordance with FCC part 15.203, Antenna Requirements. Do not use any antenna other than the one provided with the unit. 5.2 UL Compliance The Wireless Universal Strike Interface (WUSI) listing under UL294 as an access control system accessory is pending. Access equipment manufactured and/or sold by Recognition Source, LLC, is not rated for, or intended for use in life safety installations. UL listed panic hardware shall be used to allow emergency exit from the protected area. UL listed compatible readers: HID, Model PROXPOINT. Use Recognition Source Power Supply, model PS-12VDCR-500mA UL listed class 2 power supply. 5.3 Warnings RF Exposure - To comply with FCC RF exposure requirements for mobile transmitting devices this transmitter should only be used or installed at locations where there is normally at least a 20 cm separation between the antenna and all persons. Do not co-locate and operate in conjunction with any other antenna or transmitter. Changes or modifications not expressly approved by Recognition Source could void the users authority to operate the equipment. P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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(630) 762-4444 fax Page 16 of 17 6. Revision History Version x001 Date 11/26/03 Changes preliminary in house release for comments P/N: M053-xxx-x001 3820 Stern Avenue St. Charles, IL 60174

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