apC®/8X INSTALLATION AND CONFIGURATION GUIDE REVISION L0 Software House 70 Westview Street Lexington, MA 02421 http://www.swhouse.
C•CURE® 800/8000, apC®, and iSTAR® are registered trademarks of Sensormatic. Microsoft® and Windows® are registered trademarks of Microsoft Corporation. Windows NT™, Windows 2000™ and Windows XP™ are trademarks of Microsoft Corporation. PROGRESS® is a registered trademark of Progress Software. Certain Product names mentioned herein maybe trade names and/or registered trademarks of other companies. Information about other products furnished by Software House is believed to be accurate.
T a b l e o f C o n te n ts Preface Installation Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . x How to Use this Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi UL Listing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .xiii FCC Class A Digital Device Limitations . . . . . . . . . . . . . . . . . .xiii FCC Class B Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents apS Battery Backup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6 Card Readers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-9 Magnetic Stripe Readers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9 Wiegand Technology Readers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9 Proximity Readers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10 Paired Readers . . . . . . .
Contents RS-485 Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4 Connecting apC/8X panels in an RS-485 chain . . . . . . . . . . . . . 4-4 RS-232 to RS-485 Converter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4 Line Drivers for Directly Connected apC/8Xs . . . . . . . . . . . . . . . . 4-6 Modems for Dialup Mode apC/8Xs . . . . . . . . . . . . . . . . . . . . . . . . 4-7 Chapter 5 apC/8X Panel Setup Setting Up the apC/8X Main Panel . . . . . . . .
Contents Communications LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-13 LED Bar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15 LEDs on the apC/8X Cabinet Door . . . . . . . . . . . . . . . . . . . . . . . . 5-16 Appendix A Equipment Specifications Operating Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2 Equipment Dimensions and Weights . . . . . . . . . . . . . . . . . . . .
Contents Appendix C Calculating Maximum Wiring Lengths Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-2 Determining Wiring Ranges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3 Wire Types and Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3 Current Draw for Readers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3 Diagram of apC8X and Readers . . . . . . . . . . . . . . . . . . . . . . . . .
Contents viii apC/8X Technical Manual
Preface The apC®/8X Installation and Configuration Guide is for new and experienced technicians who need to install or configure the apC/8X hardware. This manual describes the following procedures. Installing the apC/8X and optional modules Wiring equipment to the apC/8X Setting apC/8X switches Testing the installation The manual assumes that you are familiar with the apC/8X Advanced Processing Controller and its operation.
Installation Overview Installation Overview Although you do not have to perform the apC/8X installation in a particular order; use the following checklist as a guide for the steps to install the apC/8X controller Review the apC/8X physical requirements, including external devices, wiring requirements, memory, and power supply ratings. (Chapter 2) Check the apC/8X hardware components and mount the apC/8X cabinet.(Chapter 3) Connect the apC/8X unit to a host computer via RS-232, RS-485, or modem connections.
Preface How to Use this Manual This manual contains these chapters and appendixes. Turn to the chapter or appendix in this manual that contains the information you need. Chapter 1: Overview Provides an overview of the apC/8X panel and describes the optional modules and card readers. Chapter 2: apC/8X Physical Requirements Lists minimum requirements for the apC/8X, including external devices, wiring requirements, memory, power supply ratings and apC/8X event and card storage.
How to Use this Manual Appendix C: Calculating Maximum Wiring Lengths Contains the procedures for calculating maximum wire lengths for the apC/8X installation. Appendix D: Dialup Modem Settings Contains information about configuring apC/8X modem connections. Appendix E: Packing and Shipping apC/8X Boards Describes what to do if your apC/8X needs to be returned or repaired. Appendix F: Templates and Technical Drawings Contains the template for the apC/8X main board and other optional boards.
Preface UL Listing The apC/8X controller is UL 294 and UL 1076 Listed. If the apC/8X has a Lien Industries power supply installed, the unit is inherently power limited so no additional excess current protection is needed. If the apC/8X has a Wall Industries (Sinpro) power supply installed, the unit is not inherently power-limited and requires the supplied DC harness with 5A in-line fuses. This unit must be installed in a secure location.
FCC Class B Notes FCC Class B Notes When using properly grounded and shielded cabling for monitor point and control point wiring, the apC/8X meets the requirements for an FCC Class B device, and the following notice applies. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
Preface Canadian Radio Emissions Requirements This digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. Le present appareil numerique n’emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la class A prescrites dans le Reglement sur le brouillage radiolelectrique edicte par le ministere des Communications du Canada.
Important Safety Information Important Safety Information Operating problems are often caused by failure to ground system components properly. Be sure to follow all instructions for grounding described in this manual. Caution: Changes to the apC/8X not expressly approved by the party responsible for compliance could void your authority to operate the equipment. The following precautions apply to all procedures described in this manual. 1.
Preface Power Supply Information The apc/8X controller is provided without an uninterruptible power supply (UPS). The Advanced Power Supply (apS) is a UL603-Listed Burglar Alarm Power Supply. This unit will provide nominal 12 VDC output at 3.5 Amps in excess of four hours when using the supplied, single 17 AH battery. An additional 17 AH battery can be installed to provide 8 hours of battery-backed power.
Conventions Conventions This manual uses the following text formats and symbols. Convention Bold Meaning This font indicates screen elements, and also indicates when you should take a direct action in a procedure. Bold font describes one of the following items: A command or character to type, or A button or option on the screen to press, or A key on your keyboard to press, or A screen element or name Regular italic font Indicates a new term. Indicates an alternate method of performing a task.
1 Overview The Software House apC/8X advanced processing Controller is an intelligent access control field panel that serves as the basic building block for the Software House C•CURE 800/8000 Systems application. The apC/8X is a distributed access control decision maker for the host computer. Local access control decisions are made by the apC/8X and transaction information is communicated to the host computer.
apC/8X Basics apC/8X Basics The apC/8X controller is housed in a 16 AWG metal wall-mounted cabinet, which has tamper switches on the front and rear and can be used in a variety of configurations. The standard apC/8X panel has eight inputs, eight outputs, and one RS-485 reader port that can support a maximum of eight readers. In the basic apC/8X installation, the eight card readers are wired in a daisy chain configuration.
Overview Supervised Inputs All apC/8X models have supervised inputs. A supervised input reports on the status of the wiring between the apC/8X and the alarm device. If the wiring is cut, the system reports an open circuit. If someone tries to jumper across the wiring (prevent the device from reporting), the system reports a shorted circuit. Supervised inputs can report a total of five conditions to the apC/8X: Short Open Loop Normal Alert Line Fault Note: An unsupervised input does not monitor the wiring.
apC/8X Basics apC/8X Optional Modules The apC/8X panel supports the following optional boards: I/32 Supervised Input Module (1 module) I/8 Input Bus Module (8 modules) R/8 Output Bus Module (8 modules) R/48 Relay Module (2 modules) Standard star coupler (1 module) Mini star coupler (1 module) Wiegand/proximity star coupler (lower and upper modules) Note: The Mini star coupler has not been evaluated by UL.
Overview R/48 Relay Module The R/48 Relay Module (part #132-429) provides 48 additional outputs for elevator, lights, HVAC, or control of other security related devices such as closed circuit TV switches and alarm dialers. You can install two R/48 Modules on one apC/8X. Standard Star Coupler The standard star coupler provides another way to connect readers to the apC/8X, since the main apC/8X board has only one port for connecting daisy chain readers.
apC/8X Basics apS Battery Backup The Advanced Power System (apS) provides operational power battery backup and powerfail capability for the apC/8X. The apS includes powerfail and low battery indicator outputs that connect to apC/8X inputs. Contact Software House for additional information about apS functions. I32 Mounts on apC (one per apC) I8?? Connects to Reader Bus (8 per apC, 2 per apC/L) Figure 1.
Overview R48 Mounts on apC (2 per apC) R8?? connects to Reader Bus (8 per apC, 2 per apC/L) Figure 1.
apC/8X Basics Standard?? Star Coupler Mini-Star?? Coupler Wiegand/Prox?? Star Coupler 8 RM Ports (8 inputs*, 8 outputs) 8 RM Ports (No inputs or outputs) 4+4* Wiegand Readers, 4+4* Inputs (*only non-supervised inputs) (Second 4 readers and inputs on an upper board) Figure 1.
Overview Card Readers A card reader is comprised of a read head or reader electronics and a small circuit board, called a personality board or module. These boards fit into the reader housing and contain the electronics for accepting magnetic stripe or Wiegand signal technologies. By setting a switch on the board, you can determine which signaling technology will be accepted.
Card Readers See the Software House Readers, Inputs, and Outputs (RIO) Guide for information about Wiegand technology readers. Proximity Readers Proximity readers transmit a radio frequency signal. A proximity card is a radio frequency transponder or tag, which consists of an antenna coil and an integrated circuit chip encoded with a unique identification number. When a card is passed near the reader, it energizes the card’s antenna, causing it to send its identification number to the reader.
2 apC/8X Physical Requirements This chapter describes physical requirements for the apC/8X: In This Chapter Connecting External Devices to the apC/8X ........................................ 2-2 Equipment Wiring Requirements ......................................................... 2-4 apC/8X Event and Card Storage ........................................................... 2-6 apC/8X Power Supply Current Ratings ................................................
Connecting External Devices to the apC/8X Connecting External Devices to the apC/8X External devices connect to the apC/8X via numbered ports located on the left and right sides of the board. Table 2.1.lists the device types and connectors. Figure 2.1 shows the groups of ports reserved for connecting specified types of devices. External Device Types and Connections Table 2.1 lists external device connectors on the apC/8X panel. Table 2.
apC/8X Physical Requirements apC/8X Ports to Connect External Devices Figure 2.1 shows the groups of ports for connecting specified device types.
Equipment Wiring Requirements Equipment Wiring Requirements Table 2.2 lists the wiring requirements for the apC/8X device and its components. Consult the Belden specifications for information on capacitance and resistance. Table 2.2: Equipment Wiring Specifications Signal To Belden# Gauge # Prs Shielded? Max Length RS-232 Comm Host apC/8X 9855 22 2 Yes 50 ft. RS-232 Comm 5-wire Host apC/8X 8303 22 3 Yes 50 ft. RS-485 Comm Host apC/8X 9842* 24 2 Yes 4000 ft.
apC/8X Physical Requirements Table 2.2: Equipment Wiring Specifications Signal Reader From Wiegand Prox Star Coupler To Belden# Gauge # Prs Shielded? Max Length Indala 9536/9537 24 3 Yes 500 ft. Sensor 9941 22 5-wire Yes 500 ft. Hughes/IDI 8723 22 2 Yes 500 ft. * For plenum or underground applications: Use Manhattan M63995 for 2 pair only, 150 ohm, 8.8 pf/ft to Belden 89182 for 1 pair 22 AWG, 100 ohm 12.95 pf/ft.
apC/8X Event and Card Storage apC/8X Event and Card Storage Event storage space in the apC/8X memory is automatically adjusted according to the space required for storing cardholder information. Increasing the number of stored records decreases the number of events (transactions) that the memory can hold.
apC/8X Physical Requirements Table 2.4 lists the apC/8X memory requirements corresponding to the supported number of cardholder records. The values in this table are approximate. Your exact memory requirements depend on the number of cards and optional features in your system. The calculations assume an event record memory of 10KB, or 1000 events. The more options you add, the fewer the number of cards the apC/8X can support. Table 2.
apC/8X Power Supply Current Ratings apC/8X Power Supply Current Ratings Power supply current ratings depend on the type of power supply unit:. With a Lien Industries power supply (SP40W1P-147), the apC/8X has a rating of 120-240 VAC, 50-60 Hz, 2 A, and the output is rated for a maximum continuous load at 12 VDC of 3.5 A. However, Software House recommends that you do not exceed a total current load of 2.8 A.
apC/8X Physical Requirements Table 2.6: Current Drawn By apC/8X and Components Component Current in Milliamperes Wiegand/proximity star coupler (upper board) 70mA R/8 option board 100mA (+ relays) I/8 option board 120mA Active Relay 25mA a. Use of the RM-4/RM-4E/RM-4DS board in the apC/8X enclosure has not been evaluated by UL. b. This unit has not been evaluated by UL. Calculating Power Supply Limits Suppose you are powering eight readers on an apC/8X using a star coupler.
apC/8X Power Supply Current Ratings Table 2.7: Power Supply Limitationsa Reader Type Indala Part Number Current in Milliamperes ASR-110, ASR-112 150 mA ASR-103, ASR-105 150 mA ASR-101 150 mA PR-10, PR-12, PR-5 130 mA ASR-120, ASR-122 350 mA PR-20, PR-22 350 mA Sensor Eng.
apC/8X Physical Requirements apC/8X Power Output Ratings apC/8X power output ratings are as follows: Aux Power (5V) = 300 mA Aux Power (12V) = 200 mA Reader Port = 350 mA Expansion Power = 2.
apC/8X Power Supply Current Ratings 2-12 apC/8X Technical Manual
3 Mounting the apC/8X This chapter lists the apC/8X hardware components, and explains how to mount the apC/8X cabinet, connect a relay output for monitoring the primary AC line, and connect the Advanced Power System (apS). In This Chapter apC/8X Hardware Components ............................................................ 3-2 Mounting the apC/8X Cabinet.............................................................. 3-3 Connecting the apC/8X Input Voltage .................................................
apC/8X Hardware Components apC/8X Hardware Components The apC/8X panel ships with the following components. Table 3.
Mounting the apC/8X Mounting the apC/8X Cabinet Before beginning an installation, make sure the installation location provides enough space for the apC/8X cabinet, the card readers, and the necessary electrical conduit. Appendix A lists the hardware dimensions for the apC/8X cabinet and readers. DETAIL A R 0.31 0.87 KNOCKOUT TOP VIEW 1.12 KNOCKOUT 3 PL 1.75 8.125 2.50 15.25 16.25 2.00 BOTTOM VIEW 0.87 KNOCKOUT 4.00 1.50 3.00 14.25 17.75 21.00 2.00 LEFT SIDE 1.12 KNOCKOUT 4 PL 1.0 0.
Connecting the apC/8X Input Voltage Connecting the apC/8X Input Voltage The Lien Industries or Wall Industries (Sinpro) power supply for the apC/8X is already installed in the cabinet when shipped. See Figure 3.2 and Figure 3.3 for power supply diagrams. You can connect the apC/8X unit to two types of power supplies. Lien Industries power supply (SP40W1P-147) Wall Industries (Sinpro) power supply (SBU120-105).
Mounting the apC/8X Line or Hot Conduit/Knockout (black or brown) Ground (green or green/yellow) PEM stud Neutral (white or blue) Junction Block In-line fuses 12 VDC Power Supply Figure 3.2: Wall Industries (Sinpro) Power Supply Line or Hot Conduit/Knockout (black or brown) Ground (green or green/yellow) PEM stud Neutral (white or blue) Junction Block 12 VDC Power Supply Figure 3.
Connecting a Power Failure Input Lien Industries Wall Industries (Sinpro) Line Neutral Ground Ground Line Neutral Figure 3.4: Top View of Power Supply Units with Pin Out Connecting a Power Failure Input Many uninterruptible and battery backup power supplies provide a relay output for monitoring the primary AC line. The apS connector P21 MAIN FAIL provides a normally-closed power failure input.
Mounting the apC/8X Connecting the Advanced Power System (apS) The apS is an optional1 power supply unit that provides uninterrupted power backup for the apC/8X. It has knockouts that line up directly to those on the apC/8X, and compatible terminal blocks and cable harnesses that keep wiring to a minimum (see Figure 3.5). 120 V AC 50/60 Hz ++ apC/8X Battery Fuse AC Input AC Fault Output Low Battery Fault Output AC Input Fuse LED apS Main Board 12 volt 17 ah Battery 12 volt 17 ah Battery Figure 3.
Connecting the Advanced Power System (apS) Caution: If the apC/8X has a built in power supply it must be disconnected before attaching the apS. The apS comes with 17 Amp hours of backup capacity. You can order an additional battery to increase this capacity to 34 Amp hours.
4 Connecting the apC/8X to a Host This chapter describes how to connect the apC/8X to a host. In This Chapter Connecting to a Host Computer............................................................ 4-2 Connecting via RS-232, RS-485, and Modems....................................
Connecting to a Host Computer Connecting to a Host Computer The host port P32 connects the apC/8X to a host computer (see Figure 4.1). A single apC/8X can connect to the host via an RS-232 serial connection. Multiple apC/8Xs communicate via an RS-485 chain, but the apC/8X chain must communicate with the host through an RS-232 to RS-485 converter. 1 apC/8X Host port P32 TX RS-232 Host PC 2 3 4 RX 5 GND RX TX GND Twisted, shielded 22 AWG (.
Connecting the apC/8X to a Host Connecting via RS-232, RS-485, and Modems This section describes how to connect the apC/8X unit to the host via RS-232 or RS-485 serial communications, and Modems. For information about setting switches on the apC/8X panel, see Chapter 5, “apC/8X Panel Setup.” RS-232 Connection 1. Use twisted, shielded 22 AWG (0.325 mm) cable, Belden type 9855 or equivalent. 2. Connect the cable shield to the apC/8X chassis ground. The apC/8X can be no further than 50 ft.
Connecting via RS-232, RS-485, and Modems RS-485 Connection Use the RS-485 serial protocol to connect apC/8X panels in a chain. It is possible to connect 16 panels on one chain. However, panel activity may affect performance, so Software House recommends limiting the maximum number of panels in a busy chain to 12. Connecting apC/8X panels in an RS-485 chain If the apC/8X is not the last panel in the chain (no termination): 1. Set S6-1 through S6-8 to Off, On, Off, On, Off, Off, Off, Off 2.
Connecting the apC/8X to a Host Plug connectors from the apC/8X and the host into the converter. The pin connections for the apC/8X, converter, and host are listed in Table 4.2 and Table 4.3. Note: Each side (host side and apC/8X side) of the converter can be configured as DTE or DCE. If configured as DTE, pin connections must be a crossover. If configured as DCE, pin connections must be straight through. Table 4.2 and Table 4.
Connecting via RS-232, RS-485, and Modems Line Drivers for Directly Connected apC/8Xs You can use a short haul modem or line driver to extend the distance the apC/8X can be located from the host. For information about connecting a modem to the host, see the appropriate documentation for your modem. Note: Short haul modems and line drivers have not been evaluated by UL for use with the apC/8X.
Connecting the apC/8X to a Host Modems for Dialup Mode apC/8Xs Use dialup mode to connect a host to an apC/8X at a remote location using standard, voice-grade telephone lines instead of hard wired or leased telephone lines. For many applications, dialup mode can be more convenient and cost-effective than other communications modes. In dialup mode, the apC/8X modem must use DTR. Connect modems using standard straight through cables.
Connecting via RS-232, RS-485, and Modems 4-8 apC/8X Technical Manual
Connecting the apC/8X to a Host apC/8X Technical Manual 4-9
Connecting via RS-232, RS-485, and Modems 4-10 apC/8X Technical Manual
5 apC/8X Panel Setup In This Chapter Setting Up the apC/8X Main Panel....................................................... 5-2 Setting apC/8X LEDs .........................................................................
Setting Up the apC/8X Main Panel Setting Up the apC/8X Main Panel Setting up the apC/8X main panel involves setting the panel’s address switches and DIP switches. Layout of apC/8X Panel Figure 5.1 shows the layout of the apC/8X main board and the location of the components to configure the panel.
apC/8X Panel Setup S5 S7 P18 P19 P20 S1 S2 S3 S8 S4 DS1 P1 P9 P10 P2 P11 P3 P12 P13 P4 S10 Legend: S = Switches P = Plug J = Jack DS1 = LED Bar ROM = FLASH P5 P14 P6 P15 P7 P16 P8 J17 P22 P28 ROM HI P27 P31 S12 S9 P26 P23 P21 ROM LO P29 P36 P43 S6 P30 P32 P25 P35 IN OUT DTR AUX P34 S11 RDR SLAVE Figure 5.
Setting Up the apC/8X Main Panel Summary of apC/8X Switches and Functions This section describes the apC/8X switches and their functions. The apC/8X panel contains two types of switches. DIP Switches - This type of switch has two positions: ON (closed) and OFF (open). For most common installations, all switches should be in the OFF position. Rotary switches - S4 and S5 are rotary address switches. To set a rotary switch, use a screwdriver to turn the arrow to the correct number. Table 5.
apC/8X Panel Setup Table 5.
Setting Up the apC/8X Main Panel Table 5.1: apC/8X DIP Switch Settings Switch System Feature S4 S4 2-digit address of apc/8X Set address rotary switches S4 and S5 to 2-digit hex address for each apC/8X S5 S5 2-digit address of apc/8X Set address rotary switches S4 and S5 to 2-digit hex address for each apC/8X. S6 S6:1 - S6:8 See Table 5.4, Table 5.5, and Table 5.6. Use S6 in combination with S11 for RS-232 and RS-485 serial connections with the host.
apC/8X Panel Setup apC/8X Switch Settings This section describes details of the apC/8X switch settings. S1:1 If S1:1 is set to ON, the database is cleared whenever the apC/8X is reset (S7) or when power is applied. This switch is used only during your initial database setup. For normal operation, set the switch to OFF. Note: If you install a new apC/8X or an apC/8X that has been connected to another system, or change the software, power up the apC/8X panel with S1:1 ON to clear the apC/8X memory.
Setting Up the apC/8X Main Panel S1:4 S1: 4 enables apC/8X dialup communication mode. Set S1:4 to ON to operate in dialup mode. (Note: for dialup operation, switch S1:3 must also be set to OFF.) Set S1:4 to OFF to disable dialup communication. Note: If you change any S1:n switch settings, we recommend that you set S1:1 to ON and press the reset button (S7). Then set S1:1 to OFF. S1:5–S1:7 Switches S1:5 through S1:7 set the baud rate at which the apC/8X communicates with the host computer.
apC/8X Panel Setup S1:8 Switch 1:8 sets the parity for communications with the computer or modem. Set it to ON for no parity; set to OFF for even parity. Use even parity (OFF) with directly connected apC/8Xs. For modem communications, including apC/8X dialup mode, match the apC/8X parity to the host parity. With either setting, the apC/8X communicates 8-bit characters with one stop bit. Note: The apC/8X and the host will not communicate if their parity settings are the not same.
Setting Up the apC/8X Main Panel S3:2 Set switch S3:2 to OFF to use the default access LED pattern on all readers. Set this switch to ON to cause the green LED to light solid (no flash) for an access grant or door unlock. An access deny causes the red LED to flash rapidly for two seconds. S3:3–S3:8 These switches are NOT used with C•CURE 800/8000. Setting them has no effect on C•CURE 800/8000 systems. S4 and S5 Use rotary switches S4 and S5 to set the apC/8X’s unique 2-digit hex address.
apC/8X Panel Setup S9:2–9:4 These switches are not used with C•CURE 800/8000. Turn S9:2 through SW9:4 to OFF. S10:1–S10:4 S10:1 and 10:2 are factory preset for normal operations. Do not change these settings. S10:1 must be set to ON. S10:2 must be set to OFF. S11:1–S11:8 Use S11 in combination with S6 switch settings to communicate with the host via RS-232 or RS-485 serial protocol. Refer to Table 5.4, Table 5.5, and Table 5.
Setting Up the apC/8X Main Panel S12:1– 12:4 Switch S12:1 is factory preset for memory chips. Do not change this setting. ON = 512K memory chips OFF = 128K memory chips Switch S12:2 is factory preset for normal operations. Do not change this setting. S12:2 must be set to OFF. Switch S12:3 is factory preset for normal operations. Do not change this setting. S12:3 must be set to ON. Switch S12:4 is not used with C•CURE 800/8000 software. S12:1 must be set to OFF.
apC/8X Panel Setup apC/8X LEDs The apC/8X has several types of LEDs: Communications LEDs indicate when data is transmitted and received from the AUX port, host computer, or reader. These LEDs are located on the bottom right-half of the apC/8X (see Figure 5.2). LED bar at the top of the apC/8X indicates the various system status conditions. LEDs on the apC/8X’s cabinet door indicate that the apC/8X power is ON. Status LEDs on the upper right-half of the apC/8X indicate that the relays are activated.
apC/8X LEDs S5 S7 P18 P19 P20 S1 S2 S3 S8 S4 DS1 P1 P9 P10 P2 P11 P3 P12 P13 P4 S10 P5 P14 P6 P15 P7 P16 P8 J17 P22 P28 ROM HI P27 P31 S12 S9 P26 P23 P21 ROM LO P29 P36 P43 S6 P30 P32 P25 P35 IN OUT DTR P34 S11 AUX RDR SLAVE IN OUT DTR Host 4 6 Aux 5 2 RDR 1 3 SLAVE 9 8 Figure 5.
apC/8X Panel Setup Table 5.7 describes the communications LEDs at the bottom of the apC/8X. Table 5.
apC/8X LEDs Table 5.8: apC/8X LED Bar (Continued) LED If On.... If Off... Green1 0.5 second flash while scanning monitor points Hardware problem Green2 1 second flash during normal operation (program heartbeat) Hardware problem Green3 Power on Power off If Flashing... Note: When power is applied to the apC/8X or if the apC/8X is reset, the LED bar goes through a diagnostic self test. The LEDs should return to normal operation within 10 seconds.
A Equipment Specifications In This Appendix Operating Environment........................................................................ A-2 Equipment Dimensions and Weights ...................................................
Operating Environment Operating Environment Power consumption: 10-20 watts, nominal Temperature range: 32° F to 120° F (0° C to 49° C) Equipment Dimensions and Weights Table A.1: Equipment Dimensions and Weight Unit apC/8X w/ cabinet w/circuit board Height 24 in. (61 cm) Depth 4 in. (10.2 cm) Width 16.55 in. (42.3 cm) Weight 19 lb. w/o power supply (8.62 kg) 20 lb. w/ power supply (9.07 kg) A-2 apC/8X circuit board 16.01 in. (40.7 cm) 0.6 in. (1.5 cm) 8.6 in. (21.8 cm) 1 lb. 2 oz.
B Testing the apC/8X Installation This chapter describes installation test procedures for apC/8X components and associated RM readers. In This Chapter Testing RM Readers..............................................................................B-2 Testing the apC/8X Main Circuit Board ...............................................B-7 The apCTest Program ...........................................................................
Testing RM Readers Testing RM Readers This section describes the test procedures for the Software House RM readers. To test a reader for normal operation, put the reader into test mode by setting the address switch to 9, power up the reader, and follow the steps below. The readers can also be bench tested without being connected to an apC/8X. When you complete the test, reset the address switch to its original setting. The LEDs on the reader indicate whether each step in the test procedure is successful.
Testing the apC/8X Installation 10. Press the 3 key again. The green LED flashes slowly. 11. Press the 3 key again. The green LED flashes rapidly. 12. Press the 3 key again. The green LED goes out. To test the outputs of the RM reader: 13. Press the 4 key. If an ARM-1 is connected to output 1 or 2, the relay(s) should activate. Press the 4 key again to deactivate the relay(s). Note: Pressing the 4 key activates both relay outputs on an RM reader. To test the read head of the RM reader: 14.
Testing RM Readers To test the inputs of the RM reader: 17. Press the 6 key to test supervised input number 1. 18. Use resistors across the inputs to simulate the conditions listed in the following table and check the LED responses. Table B.
Testing the apC/8X Installation RM LEDs Each RM reader has three LEDs: red, green, and amber. The various conditions indicated by these LEDs are described in Table B.2. Table B.2: RM Reader LED Indications Red LED Amber Green Indication Brief flash Brief flash Brief flash Power up Off Off Off Online (Alternate indication)* Off On Off Online (Normal indication)* On Off Off Offline or reader tamper Solid for 1 sec. Off Off Access denied (Normal indication)* Fast flash for 2 sec.
Testing RM Readers Non-Software House Readers Present a card. The red LED on the reader lights up. If you have questions regarding testing non-Software House readers, contact Software House customer support for assistance.
Testing the apC/8X Installation Testing the apC/8X Main Circuit Board The apC/8X should be disconnected from the host when you test it. LEDs on the apC/8X main circuit board indicate whether the board is functioning properly. To test the main circuit board: 1. Remove power from the apC/8X and disconnect the reader wiring. 2. Apply power to the apC/8X. 3. About one second after turning on power, the top RED LED on the LED BAR turns ON for approximately one-half second. 4.
The apCTest Program The apCTest Program The apC test program lets you perform a full test of the apC panel and the readers connected to it. You can test an apC either as a stand-alone device or as a device that is online with the host. The apC test program is very useful in determining what is actually encoded on an access card using the Swipe test. Note: When apC test is executed on an online panel, the control point tests are not supported.
Testing the apC/8X Installation Main Menu The following function keys are available from the Main Menu, as indicated in Table B.3 Table B.3: Main Menu Function Keys Function Key Action F1 View help text for the program. F2 View configuration information about the connected apC. F3 Run diagnostic tests on the connected apC. F4 Monitor operation of the connected apC. F8 Configure the apCtest program. F9 View information about the apCtest program.
The apCTest Program The following figures show examples of using apC Test to get configuration information about the apC and to execute the Swipe test. 1. Select F2 (Conf) 2. From the sub-menu, select F3 (apC Configuration) Table B.4: Function Keys Available from Configuration Sub-menu Function Key Action F1 View help about the Main Configuration screen. F2 Return to the Main Command screen. F3 View apC configuration information. F4 View RM/MRM configuration information.
Testing the apC/8X Installation apC Configuration Display Figure B.4: apC Configuration Display Table B.5 shows the meaning of the variables. 1. Select F3 to refresh the data; it is not dynamic. 2. Select F2 to return to the Configuration menu. Table B.5: Configuration Variables and States Configuration Variable State Firmware version 8.
The apCTest Program Table B.5: Configuration Variables and States Configuration Variable State DIP switches Switches are shown as 8 7 6 5 4 3 2 1 f=off and o=on Configuration Sub-menu for MRM If MRM is selected from the Configuration menu, the sub-menu will allow you to select any one of the eight readers that may be connected to the apC.
Testing the apC/8X Installation Diagnostic Test Program - Main Menu Figure B.5: Main Command Menu 4. Select F3 from the Main Command menu to display the Diagnostic Test Program menu. The Diagnostic Test menu allows you to test Control points and Monitor points, and to use the Swipe Test to display card reads. The Swipe test is useful for determining what data is actually recorded on an access card. Table B.
The apCTest Program Table B.6: Function Keys for Diagnostic Test Menu Function Key Action F5 Test a reader by swiping a card through it. F6 Display the status of the apC's monitor points. Figure B.6: Test Functions Menu 5. Select Swipe (F5) from the Test Functions menu.
Testing the apC/8X Installation Test Swipe Menu Figure B.7: Reader Swipe Test The swipe test will display card reads from any reader connected to the apC. Figure B.7 shows sample output from several different card swipes. The sample swipe test output indicates the reader, number of bits recorded on the card, and the value of the bits. The display will either be Wiegand (binary) or Magnetic (4 bit BCD). If the display is Wiegand, all bits are shown including parity at each end.
The apCTest Program The first line displayed in Figure B.7 shows a Wiegand 26 card with Facility Code 204 and a card number of 27445. 0 11001100 011010110011010 Even parity 0 Odd parity Facility Code = 204 Card Number = 27445 Figure B.8: Wiegand 26 Sample Card Data Test LED The Test LED operation is no longer supported. Test CtlPts The Test CtlPts (Control Points) menu allows you to activate relays associated with the apC. You can activate individual relays or all at once.
Testing the apC/8X Installation Monitor Menu The monitor menu will display access reports and card swipes that are also sent to the host computer. Table B.
The apCTest Program Setup Menu Allows you to use either COM1 or COM2 to connect to apC Test. About Menu Displays the date that apC Test was built. Quit Menu B-18 apC/8X Technical Manual Exits apC Test and returns to the Command Prompt.
C Calculating Maximum Wiring Lengths In This Appendix Introduction...........................................................................................C-2 Determining Wiring Ranges .................................................................
Introduction Introduction The apC/8X supplies 12 volts at its connectors; however, the amount of power that actually reaches each personality board in a chain is less than 12 volts. The RM-4 requires at least 7.5 volts to operate properly. The RM-4E requires at least 11 volts to operate properly. The total voltage is lowered by each reader and by the resistance of the wire.
Calculating Maximum Wiring Lengths Determining Wiring Ranges To calculate wiring ranges, you need to know: Wire type used to connect the RMs to the apC/8X Resistance (ohms per foot) based on the wire type Number and type of readers on the chain. Distances between each element (reader) in the chain Wire Types and Resistance The following table lists the resistance (ohms per foot) for common wire types. Table C.1: Wire Types and Resistance Wire Type Resistance (ohms per foot) 18 AWG 0.00879 22 AWG 0.
Introduction apC Panel RM Port RM4/4E Reader A RM4/4E Reader B RM4/4E Reader C 12 VDC 50 ft. 500 ft. 250 ft. Terminate Figure C.1: Sample Diagram apC/8X and Readers Calculating Wire Ranges for RM4 Readers From Table C-1, the RM4 Reader draws 75 mA (rounded up to 100 mA or .1 A), as listed in From Table C-2, the resistance with 18 AWG wire is 0.00879 ohms per foot. From Figure C.1, the diagram shows that you are going to connect three RM4s to the apC/8X. The RM4/4Es are laid out as follows.
Calculating Maximum Wiring Lengths 1a. Calculate Voltage Drop for RM A Multiply 50 ft. * .1 A * .00879 = .04395 volts dropped for RM A 1b. Calculate Voltage Drop for RM B Multiply (50 ft. + 500 ft.) *.1 A * .00879 = .48345 volts dropped Multiply (550 ft.) *.1 A * .00879 = .48345 volts dropped for RM B 1c. Calculate Voltage Drop For RM C Multiply (50 ft. + 500 ft. + 250 ft.) *.1 A * .00879 = .7032 Volts dropped Multiply (800 ft.) *.1 A * .00879 = .7032 volts dropped for RM C 2.
Introduction Note: Although the maximum wire length for an RS-485 connection is 4000 ft., the power to operate an RM-4 must be equal to or greater than 7.5 volts. Therefore, the minimum power requirements may impact the “maximum” wire length. For example: 1 RM at 4000 ft. = 3.516 volt drop using 18 gauge. 12 VDC - 3.512 = 8.488 volts (OK - Sufficient power for an RM-4). 1 RM at 4000 ft. = 9.36 volt drop using 22 gauge 12 VDC - 9.36 = 2.64 volts (Not OK - Insufficient power for an RM-4). 1 RM at 1932 ft.
Calculating Maximum Wiring Lengths Calculating Wire Ranges for RM-4E Readers From Table C-1, the RM-4E Reader draws 1.75 mA (round up to 200 mA or .2 A). From Table C-2, the resistance with 18 AWG wire is 0.00879 ohms per foot. From Figure C.1, the diagram shows that you are going to connect three RM-4Es to the apC/8X. The RM-4Es are laid out as follows. RM A is 50 ft. from the apC/8X RM B is 500 ft. from the first RM C is 250 ft. from the second Perform calculations, as follows: 1.
Introduction 2. Add Voltage Drop for each Reader = Total Volts Dropped Add .0879 (A) + .9669 (B) + 1.4064 (C) = 2.4612 Total Volts Dropped 3. Subtract Total Volts Dropped from Original Supply 12.0 VDC (original) - 2.4612 (volts dropped) = 9.5388 VDC remaining 4. Is remaining voltage sufficient to operate the readers? The RM-4E requires at least 11 volts to operate properly. All RM-4E readers in the chain must have at least 11 volts. 9.5388 volts is insufficient to operate the RM-E reader chain.
Calculating Maximum Wiring Lengths Table C.3: Wiring Length Worksheet for 18 AWG - Multiply Across and Add Total Voltage Drop Column Reader # Current (amps drawn) Wire resistance per foot (18 AWG) Wire length from apC/8X or previous reader Total voltage drop for this reader H 0 .00879 ____________= ____________ G 0 .00879 ____________= ____________ F 0 .00879 ____________ = ____________ E 0 .00879 ____________ = ____________ D 0 .00879 ____________ = ____________ C 0 .
Introduction C-10 apC/8X Technical Manual
D Dialup Modem Settings Note: The apC/8X has not been evaluated by UL for use with dialup modem communication. An apC/8X in dialup mode at a remote location connects to the host using standard, voice-grade telephone lines instead of hard wired or leased telephone lines. In many applications, dialup mode is more cost-effective and convenient than other communications modes. Software House has identified a special OEM modem for dialup and lease-line applications.
Configuring OEM Modems Configuring OEM Modems OEM modems work for dialup and leased line communications on C•CURE 800/8000 hosts. Configuring Modems for Use with Dialup Lines Table D.1: apC/8X Switch Settings for Dialup Modem Switch Status Description 1 ON Clears memory on the panel, after communications, should switch to OFF. 2 OFF Amber LEDs on readers. 3 OFF Must be Off 4 ON Enable dialup. 5 OFF 9600 baud. 6 OFF 9600 baud. 7 OFF 9600 baud. 8 ON Sets parity to NONE. Table D.
Dialup Modem Settings Table D.2: OEM Modem Switch Settings for Dialup Switch Host apC/8X #9 DOWN DOWN #10 UP UP #11 UP UP #12 DOWN DOWN #13 DOWN DOWN #14 DOWN DOWN #15 UP UP #16 DOWN DOWN Host apC/8X KEY Down Up Figure D.
Configuring OEM Modems Host Computer Settings The host computer should have these settings: Baud rate: 9600 Bits: 8 Parity: None Stop Bit: 1 Flow Control: None Note: Do not add or configure a modem from the Windows Control Panel. Use the Control Panel only to specify port settings. TXD 14 1 15 DTR 2 16 3 17 RXD 4 18 19 GND 5 20 apC 21 22 23 OEM Modem 24 25 1 2 3 4 5 6 7 8 9 10 11 12 13 Figure D.
Dialup Modem Settings Configuring Non-OEM Modems with Software The apC/8X automatically sets up modems that are configured using software commands, based on the modem’s default settings. However, the default settings of some modems do not turn command echo off and enable DTR. This causes unpredictable behavior when the apC/8X is used in dialup mode.
Configuring Modems for Use with Leased Lines Configuring Modems for Use with Leased Lines For use with a leased line, the apC/8X panel must be set for a direct connection instead of dial up. Set SW3-1 to ON, SW3-2 to OFF, and power on the apC/8X. It is important to understand the decibel (dB) attenuation specifications of the leased line to be used. Depending on the proximity of the modem to the source of the leased line, there may be a requirement to attenuate or de-tune the signal strength.
Dialup Modem Settings Figure D.3: Lease Line Scenarios MT2834BL Series (OEM) DIP-Switch #3 adjusts dB attenuation levels required by most lease line carriers. Set DIP-Switch #3 to the DOWN position to enable -9 dB attenuation. Set DIP-Switch #3 to the UP position to enable -15 dB attenuation. -9dB attenuation = Switch #3 DOWN (Factory Default Setting) -15dB attenuation = Switch #3 UP MT1932BL Series (non OEM) DIP-Switch #3 adjusts dB attenuation levels required by some lease line carriers.
Configuring Modems for Use with Leased Lines Table D.4: OEM Modem Switch Settings for 2-Wire Leased Lines Switch Host apC #1 DOWN DOWN #2 UP UP #3 DOWN DOWN #4 UP UP #5 DOWN UP #6 UP UP #7 DOWN DOWN #8 DOWN DOWN #9 DOWN DOWN #10 DOWN DOWN #11 DOWN DOWN #12 DOWN DOWN #13 UP UP #14 UP UP #15 UP UP #16 UP UP Host apC KEY Down Up Figure D.
Dialup Modem Settings Table D.5: OEM Modem Switch Settings for 4-Wire Leased Lines Switch Host apC #1 DOWN DOWN #2 UP UP #3 DOWN DOWN #4 UP UP #5 DOWN UP #6 UP UP #7 DOWN DOWN #8 DOWN DOWN #9 DOWN DOWN #10 DOWN DOWN #11 DOWN DOWN #12 DOWN DOWN #13 UP UP #14 UP UP #15 UP UP #16 DOWN DOWN Host apC KEY Down Up Figure D.
Configuring Modems for Use with Leased Lines OEM HyperTerminal Edits for 4-Wire Leased Lines From a HyperTerminal session, type the following commands: Note: You must switch DIP Switch #10 to the UP position for your HyperTerminal session to work properly. Ensure that after you make these changes, you return DIP Switch #10 back to the DOWN position. It is normal to not see the commands as you type them.
E Packing and Shipping apC/8X Boards This appendix contains instructions for Authorized Dealers and Distributors to pack and ship apC/8X boards for repair, advance replacement, or credit. In this Appendix: Request an RMA number Information for Material Support Center. Complete and RMA form and pack boards. Use RMA number for reference.
Process for Returning Boards Process for Returning Boards For Authorized Dealers and Distributors only. If you are an authorized dealer or distributor, follow this process to pack and ship apC/8X boards for repair, advance replacement, or credit only. Do not include enclosures. Request an RMA Number 1. Before packing and shipping apC/8X boards, request a Return Merchandise Authorization (RMA) number. Packages that are not marked with an RMA number may be refused and returned to sender. 2.
Packing and Shipping apC/8X Boards Pack Boards and Attach Shipping Labels 5. After receiving the RMA number and shipping labels, pack the board(s) carefully to avoid damage in transit. Make sure the outside of each package is clearly marked with the RMA number assigned to you by the Material Support Center. Use RMA Number for Reference 6. Reference the RMA number in all communications about the returned equipment.
Process for Returning Boards E-4 apC/8X Technical Manual
F Templates and Technical Drawings This appendix contains the following templates(NEED updated info)??: apC/8X Template .................................................................................. F-2 apC I/32 Supervised Input Module....................................................... F-3 apC Star Coupler................................................................................... F-5 Wiegand/Proximity Star Coupler (Upper Board) .................................
ROM LO U43 ROM HI U42 2 1 W11 W12 W13 W14 2 3 4 5 1 W9 B A B A B A 2 P25 4 1 A 2 W10 3 4 5 B IN 1&4 +12VDC 2&5 GND OUT DTR HOST 1 4 2 5 3 6 AUX RDR SLAVE *FACTORY DEFAULT SETTINGS POWER IN Figure F.
Templates and Technical Drawings R1 201 202 33 R129 49 CO N NECTS LO G IC G RO U ND TO CH ASSIS G RO U ND 203 204 235 R9 R17 W1 205 206 O N - BO A RD IN 1K TERM IN ATIO N RESISTO RS . TO BE REM O V ED W H EN W IRIN G TO EXTERN AL SEN SO RS A N D 207 208 SW ITCH ES .
P1 K1 CR1 CR48 CR2 CR47 K3 P3 K4 P4 P5 P6 CR46 CR5 apCR 48 Made in ISA P/N AS-0016-000 Comp Side CR6 C99 CR43 CR3 CR4 K5 P9 U1 K44 P45 K43 P44 CR42 K8 CR9 K10 CR10 CR41 Bottom Mates w/apC P17 or apCR48 P49 Top Mates W/apCI32 P33 or apCR48 P49 P43 P42 K40 CR40 P41 K39 CR39 P40 P49 P10 P11 P39 K11 K38 CR11 K12 P12 CR13 C102 U3 C106 U2 K14 CR14 K15 K36 W1 B P14 K37 CR37 CR12 K13 P13 CR38 W1-A = First apCR48 WI-B = Second apCR48 K35 P36 C107 K34 P35 K33 P34
Templates and Technical Drawings 13 9 R 10 5 C7 NO C5 P1 L1 L2 P9 L3 C17 L4 L5 P10 L6 C18 R 17 R 18 R 19 RD5 L7 L8 P11 L9 C19 R RD4 L10 L11 P12 L12 C20 RD6 K 15 C 16 OUT R 13 R 14 7 K 4 R 15 R 16 8 M A D E IN U S A REV A A P C E X P A N S IO N 3 CR 3 4 C4 R1 R2 K BOARD 3 2 CR2 K 1 R R R R CR9 CR 10 C 27 R34 U A S- 40 36 33 37 0 0 2 00 0 2 0 1 CR 11 CR 12 R P N CR1 38 + NC P8 C8 C6 R RD7 K R R CR1 C 33 12 5 C3 9 NO CR7 7 8 CR4 R6
Wiegand/Prox Star Coupler Upper Rev A IN 25 1 P19 IN 27 1 P18 IN 29 IN 1 P17 31 1 Software House Made in USA AS-0054-001 P16 R66 LED1 POWER R64 R65 R63 ON-BOARD 1K TERMINATION RESISTORS.
Templates and Technical Drawings U4 W ie g a n d /P ro x S ta r C o u p le r U pper R ev A S o ftw a re H o u s e W ie g a n d /P ro x S ta r C o u p le r L o w e r B o a rd U3 S o ftw a re H o u s e M a d e in U S A A S -0 0 5 4 -0 0 0 U2 P12 U1 C O N N E C T IO N T O U PPER B O A R D C O N N E C T IO N P11 TO APC READER P1 1 R E A D E R 4 LED1 ENABLE/ D IS A B L E PO W ER PO W ER 6 FR O M A PC SW 2 LED W2 RESET 1 P .B .
0.2" (5 mm) 1/8" hole (3.2 mm) P10 P9 DS25 R DS24 Y DS23 G P8 DS22 R DS21 Y DS20 G P7 P1 1 1 DS4 R DS3 Y O DS2 G DS1 Power n P2 DS7 R DS6 Y DS5 G P3 DS10 R DS9 Y DS8 G DS19 R DS18 Y DS17 G P6 P4 DS13 R DS12 Y DS11 G DS16 R DS15 Y DS14 G P5 3.93" (9.98 cm) 0.2" (5 mm) 1 234 S1 DS27DS26 Tx Rx SW1 5.31" (13.45 cm) 5.91" (15 cm) Figure F.7: Input Bus Module F-8 apC/8X Technical Manual 4.
Templates and Technical Drawings P9 RELAY OUTPUTS FORM C DRY CONTACTS RATED FOR: 2A AT READER BUS 1 +12V FROM APC 30V DC W1 RS485 END OF LINE TERMINATION CLOSED = LAST BOARD IN RS485 LOOP 2 +TXD / +RXD 3 -TXD / -RXD 4 GRN FROM APC 0.6A AT 125V AC 0.6A AT 110V DC OPEN = NOT THE LAST BOARD IN LOOP 1 4 P9 C P1 NC NO P2 NC NO W1 NC C C P8 NO NC SW1 NO P7 C 3.
Inside View Door Removed Left Side Right Side 1.12 Knockout 2 PL. 1.12 Knockout 4 PL. See Details 24.25 22.87 21.00 17.75 21.00 17.75 0.87 Knockout 2 PL. 14.25 14.25 0.28 2 PL. 3.00 3.00 1.50 1.5 2.00 15.25 16.25 13.25 11.25 8.125 2.50 1.50 R0.15 0.62 0.57 Knockout 4.00 0.87 Knockout 2.00 Bottom View R0.31 1.12 Knockout 3 PL Top View Figure F.
Templates and Technical Drawings 2.0 4.0 1.5 14.75 Top View 16.25 See Detail A 4.0 4.0 2.0 2.0 3.0 3.0 13.5 14.5 1.5 1.0 Left Side 15.25 Right Side 16.25 Front View R0.15 All Knockouts are 0.87" Diameter. 0.62 4.0 R0.31 Detail A 16.25 Bottom View Figure F.
MINIPROX RM 9 J4 HOLD 1 BEEP RED L PROXPRO GRN L RM 1 RTN DC+ D1 GND 1 D0 J4 1 D0 D1 GND +12V RTN 1 GREEN LED 1 RED LED BEEPER HOLD RM J3 TAMPER C TAMPER S 11 RM J3 24 VDC POWER SUPPLY MAXIPROX 1 RM J4 DC+ NOTES: 1 GND THE MINIPROX AND PROXPRO CAN EACH DRAW 175MA MAX. DEPENDING ON D0 YOUR SYSTEM CONFIG., THIS MAY EXCEED THE APC'S POWER SUPPLY D1 RATING AND EXTERNAL POWER MAY BE REQUIRED FOR THE READERS.
Templates and Technical Drawings Figure F.
Figure F.
Templates and Technical Drawings INDALA ADVANTAGE SERIES BI-COLOR READER TO RM WIRING FOR DUAL WIRE LED CONTROL ARE - 142 REMOTE ELECTRONICS BLUE GREEN BROWN WHITE BLACK RED INDALA A-103 A-105 OR A-120 / 122 ANTENNA A TB1 F * P5 P1 1 11 1 4 WHITE GREEN 1 ORANGE BROWN BLACK RED J3 1 TB2 4 10 J4 +12VDC + RM4 P / N AS - 0070-000 P5 P1 11 4 1 WHITE ASR 1 - 110 OR ASR112 GREEN J3 BROWN 1 BLACK J4 RED ORANGE +12VDC + RM4 P / N AS - 007-000 NOTES: 1.
INDALA ADVANTAGE SERIES BI-COLOR READER TO RM WIRING FOR SINGLE WIRE LED CONTROL ARE - 142 REMOTE ELECTRONICS BLUE GREEN BROWN WHITE BLACK RED INDALA A-103 A-105 OR A-120 / 122 ANTENNA A TB1 F * P5 P1 1 11 1 4 WHITE GREEN 1 J3 BROWN BLACK RED 1 J4 + +12VDC RM4 P / N AS - 0070-000 P5 P1 11 1 4 WHITE ASR 1 - 110 OR ASR112 GREEN J3 1 BROWN J4 BLACK RED - RM4 P / N AS + +12VDC - 007-000 NOTES: 1. RM AND ISOLATED POWER SUPPLY MUST HAVE COMMON GROUND 2.
Index A event and card storage 2-6 LEDs 5-13 optional modules 1-4 power supply limitations 2-8 Addresses, apC/8X 5-10 Advanced Power System (apS) 1-6, 3-7 Advanced processing Controller (apC/8X) addresses 5-10 baud rate switches 5-7, 5-8 cabling 2-5 card storage 2-6 dialup mode 4-7, D-1 event storage 2-6 external devices and 2-2 hardware 3-2 host connection 4-2 input voltage 3-4 internal power supply limits 2-8 mounting 3-1 to ?? output door forced open 5-9 parity switches 5-9 power failure input 3-6 rep
Index testing B-2 Wiegand 1-9 Cards entry through keypad 5-5 CE compliance xv Communications LEDs 5-15 I Input voltage 3-4 Inputs 1-3 card numbers through keypad 5-9 unsupervised 1-3 Components E-3 Insertion reader 1-9 Configuring apC/8X jumpers 4-3 Installation test procedures B-1 Conventions, documentation xviii Internal power supply limits 2-8 D K Dialup mode configuring 5-8, D-1 modem parity switch 5-9 setting switch for 5-8 Key reader 1-9 DIP switch settings for modems D-2, D-8, D-9 Docume
Index configuring for use with leased lines D-6 dialup D-1 directly connected 4-6 for dialup mode apC/8Xs 4-7 for directly connected apC/8Xs 4-6 hyperterminal edits for 4-wire leased lines D-10 switch settings for 2-wire leased lines D-8 for 4-wire leased lines D-9 for dialup D-2 wire diagram D-4 Mounting the apC/8X cabinet 3-3 N R Replacing the apC/8X EPROM 4-7 Reset switch 5-10 Return Authorization Number E-2 Returning equipment, instructions for E-2 RM LEDs B-5 reader bus 1-4 RM-4 wire length C-1 to ?
Index baud rate 5-8 dialup modem 5-8 LED 5-10 modem parity 5-9 report on misread card 5-9 reset 5-10, 5-11, 5-12 T Tamper switch 1-2 Test procedures B-1 Testing readers B-2 U UL Listing xiii Unsupervised inputs 1-3 UPS connector 3-6 W Wiegand readers 1-9 dimensions and weights A-2 test procedure B-6 types 1-9 Wiegand/Proximity Star Coupler 1-5 Index-4 apC/8X Technical Manual
