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EMBEDDED ACCESS CONTROL
Hardware Installation Guide
Lenel
®
goEntry Hardware Installation Guide, product version 1.00. This guide is item number DOC-
ENHW-ENU, revision 1.003, April 2009
Copyright © 2009 Lenel Systems International, Inc. Information in this document is subject to change without notice. No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, without the express written permission of Lenel Systems International, Inc.
The software described in this document is furnished under a license agreement and may only be used in accordance with the terms of that agreement. Lenel is a registered trademarks of Lenel Systems International,
Inc.
Windows and Microsoft are registered trademarks of Microsoft Corporation in the United States and other countries. Other product names mentioned in this User Guide may be trademarks or registered trademarks of their respective companies and are hereby acknowledged.
The software included in this product contains copyrighted software that is licensed under the GPL. You may obtain the complete Corresponding Source code from us for a period of three years after our last shipment of this product, which will be no earlier than 2012-02-27, by sending a money order or check for $5 to the following address:
Lenel Systems International, Inc.
1212 Pittsford-Victor Road
Pittsford, NY 14534-3820
Please write “source for goEntry” in the memo line of your payment. You may also find a copy of the source at http://www.lenel.com. This offer is valid to anyone in receipt of this information.
Table of Contents
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5
Configuring the Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
9
Configuring Communication Between the Computer and Controller
15
15
16
17
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
19
19
19
Hardware Installation Guide
3
Table of Contents
4
Hardware Installation Guide
CHAPTER 1
Introduction
• WARNING! •
VertX controllers and panels are sensitive to Electrostatic Discharges (ESD).
Observe precautions while handling the circuit board assembly by using proper grounding straps and handling precautions at all times.
Based on HID’s VertX controller, goEntry is a flexible open platform that is scaleable to permit economical and high performance access control solutions for a wide range of applications. The
VertX units interconnect through different sub-networks and protocols to a standard TCP/IP network with the capability of a variety of applications.
IMPORTANT: One or more VertX Interface panels are required when installing a V1000 controller.
Hardware Installation Guide
5
6
Introduction
Parts List
Description
VertX™ units:
V1000 (Access Controller)
V100 (Door/Reader Interface)
Each VertX unit has a plastic base and is covered with a Plastic or Mylar cover.
Lithium Battery (V1000)
Mounting screws
2.2K EOL resistors
Quantity
1 V1000 and any combination of (up to 8) interface panels.
1
4
8 for each V1000
4 for each V100-Series
Product Specifications
Description
Power Supply 12-16VDC.
The power supply voltage should match the voltage of the reader connected to the V100.
Maximum Current per V1000
Average operating current at 12VDC
Operating temperature range
Humidity
Quantity
1 V1000 and any combination of (up to 16) interface panels.
1 Amp
V1000 - 210 mA
V100 - 450 mA (with two R40 iCLASS
Readers)
32°-122°F (0°-50°C)
5% to 95% non-condensing
Cable Specifications
Cable Type
RS-485 *
Length
4000 feet (1220 m) to host
Input Circuits * 500 feet (150 m)
Output Circuits* 500 feet (150 m)
Specification
Using Belden 3105 A, 22 AWG twisted pair, shielded 100 ohm cable, or equivalent.
2-conductor, shielded, using ALPHA 1292 C
(22 AWG) or Alpha 2421C (18 AWG), or equivalent.
2-conductor, using ALPHA 1172C (22AWG) or Alpha 1897C (18AWG), or equivalent.
Hardware Installation Guide
Cable Specifications
Cable Type
Wiegand
Ethernet
Power Supply
+12 VDC IN
Length
500 feet (150 m) to reader
328 feet (100 m)
---
Specification
ALPHA 1299 C, 22 AWG, 9-conductor, stranded, overall shield.
Fewer conductors needed if all control lines are not used.
Cat 5, Cat 5E, and Cat6
Refer to your specific power supply
Installation Guide for any needed information.
* Minimum wire gauge depends on cable length and current requirements.
Hardware Installation Guide
7
Introduction
8
Hardware Installation Guide
CHAPTER 2
Configuring the Hardware
Installing the hardware for your system requires some basic knowledge of hardware installation practices. This user guide will walk you through the items needed to successfully configure your system.
Configure the Hardware
The instructions provided here detail how to configure the hardware by referring to sections of the controller marked by the letter P. For example if the instructions read that you must connect the power supply to the P7 connector you would look for the label P7 on the controller and attach the power supply to the corresponding connector.
Step 1: Verify the Jumpers on the V1000 Controller
1.
2.
• WARNING! •
Before adding and removing jumpers make sure that the hardware is turned off.
Verify that the battery jumper is installed in the ON position at the P10 connector.
Verify the termination jumper is in the OUT position if there are no panels attached to the port. If there are downstream interface panels attached then the termination jumper should be in the IN position. The V1000 controller is shipped with jumpers in the OUT position.
Step 2: Mount the Hardware Devices
•
Mount the controller to the wall using the four mounting screws (provided) or other appropriate fasteners. Place the fasteners in the corner holes of the base. The V1000 and V100 devices can be stacked with or without the cover. Do not remove the plastic base. Make sure you position the devices in such a way as to provide room for wiring, air-flow and cable runs.
Note:
The controllers and interface panels should always be mounted in a secure area.
Hardware Installation Guide
9
10
Configuring the Hardware
8
9
10
6
7
4
5
2
3
PIN #
1
Step 3: Verify the Installation of the V100 Reader devices
•
If the V100 reader is going to be attached to the RS-485 bus then install a terminating jumper to the IN position on the termination resistor pins at the P8 section of the V100 reader.
•
If the V100 reader is being installed as part of a third party enclosure, follow the directions provided by the Integrator or Dealer.
Step 4: Wire the V1000 Controller
1.
2.
IMPORTANT: Connectors on the controller devices are positioned to be mirror images and are not interchangeable once the installation is complete. Therefore, you cannot unplug a connector from one side and plug it into the corresponding connector on the other side.
Network Connection: Connect the V1000 controller to the network using a standard Cat5 network patch cable. Connect one end of the Cat5 network patch cable to the J1 (RJ-45) connector on the V1000 controller and the other end to the network connection point (network jack, hub, switch, or router) of your computer.
Power and Alarm input connections on All Controller and Reader units: Connect power by providing 12VDC to the P7 connector. +12VDC goes to Pin 1 and ground to Pin 2. Batt Fail, AC
Fail, and Tamper switch inputs are wired as shown in the table.
Connect the Bat Fail and AC Fail inputs to battery low/failure and AC failure contacts provided on the power supply. Connect the Tamper input to a tamper switch on the enclosure.
3.
Reader Connections: Connect Wiegand or clock-and-data interfaces to a V100 Reader using the connection table shown. You can connect up to 10 signal lines for the reader. Use as many of the signal lines as required by your reader.
Connect the data return line to the same ground as the reader power if the reader is not powered by the VertX units 12VDC.
V100 Reader P1
Reader Power
Ground
Data 0 / Data
Data 1 / Clock
Data Return
Green LED
Red LED
Beeper
Hold
Shield Ground
V100 Reader P4
Shield Ground
Hold
Beeper
Red LED
Green LED
Data Return
Data 1 /Clock
Data 0 / Data
Ground
Reader Power
Hardware Installation Guide
Configure the Hardware
4.
RS-485 Connections: The V1000 controller has two RS-485 connectors that use the 10-pin connector on P3 and P4. Each RS-485 bus can support a maximum of 8 V100-Series panels using one or two ports.
Having two ports on each bus provides the option of splitting each RS-485 bus into two physical connections, allowing a total of four physical connections for the two busses.
RS-485 busses must be connected in a daisy chain topology and not a star topology. The V1000 controller termination jumper should be in the Out position if there are no panels attached to the port. If there are downstream panels attached then the termination jumper should be in the In position.
IMPORTANT: The V1000 controller RS-485 Ports 1 & 2 (P1) are a common bus and therefore cannot have panels with duplicate Interface Addresses assigned. The same is true of the V1000 controller RS-485, Ports 3 & 4 (P4). For example, two panels, both with Interface Address 0 (factory default), cannot be connected to Ports 1 and/or 2 (P1).
IMPORTANT: It is recommended to wire the RS-485 to the In position of the P9 terminal block of the V100-Series panel. This is especially important when the RS-485 communication is in a “daisy chain” configuration. If the RS-485 is wired In and Out, and power is lost, or the P9 terminal block is unplugged on a V100-
Series panel, RS-485 communications will be lost to downstream V100-Series panels.
IMPORTANT: goEntry does not support the use of RS-232 connections to the V1000 or V100.
8
9
10
6
7
4
5
2
3
PIN #
1
V1000 P3
(port 1 and 2)
A
B
Shield
Not in use
Not in use
A
B
Shield
Not in use
Not in use
8
9
10
6
7
4
5
2
3
PCB Pin #
1
V1000 P4
(port 3 and 4)
Not in use
B
A
Not in use
Shield
Not in use
Not in use
Shield
B
A
5.
6.
Interface Address - Set the interface address by turning the Address dial.
Output Connections on All Controller and Reader Units: All Output connections are used for general purpose controls. The following table shows where the various outputs are located. Pin
Hardware Installation Guide
11
12
Configuring the Hardware
numbers shown use the convention “NO/C/NC”. For example, Output 1, V1000: P3 Pin1 is NO
(Normally Open,) Pin 2 is C (Common,) and Pin 3 is NC (Normally Closed).
Note:
Relays are dry contact rated for 2 Amps @ 30 VDC.
N/O
C
N/C
+
-
+ -
Power Supply
Output
Number
1
2
3
4
V1000
P14 Pins 3/4/5
P11 Pins 3/4/5
V100
P3 Pins 1/2/3
Strike (lock) Relay 1
P3 Pins 4/5/6
Aux Relay 1
P6 Pins 6/5/4
Strike (lock) Relay 2
P6 Pins 3/2/1
Aux Relay 2
7.
Input Connections on All Controller and Reader Units: Input connections are analog inputs used for a combination of specific functions such as Request-to-Exit (REX), Door monitor, etc.
They can also be used as general purpose monitoring. Connect one side of the switch or contact to the + (plus) lead and the other to the - (minus) lead. The following table shows where the inputs are located. Pin numbers shown on the cover use the convention +/-.
The default REX input configuration is normally open (NO) unsupervised (no EOL resistors).
However, the default door switch (DS) configuration is Normally Closed (NC), unsupervised (no
EOL resistors).
All other input points are defaulted for NO switches and are unsupervised (no EOL resistors).
Any input can be configured as normally open (NO) or normally closed (NC), as well as unsupervised or supervised. They can be configured for supervisory resistors of 1K - 6K Ohm.
The setup of supervised inputs should be done during configuration of the VertX devices via the host.
Except for the door monitor, all other inputs default to NO, unsupervised.
Hardware Installation Guide
Configure the Hardware
Supervised inputs can be configured for:
1-6K
1-6K
6
7
4
5
2
3
Output
Number
1
V1000
P14 Pins 1/2
P11 Pins 4/3
P7 Pins 8/7
Tamper
P7 Pins 6/5
AC Fail
P7 Pins 4/3
Batt Fail
V100
P2 Pins 1/2
Door Monitor
P2 Pins 3/4
REX input
P5 Pins 4/3
Door Monitor
P5 Pins 2/1
Rex Input
P7 Pins 8/7
Tamper
P7 Pins 6/5
AC Fail
P7 Pins 4/3
Batt Fail
Hardware Installation Guide
13
Configuring the Hardware
14
Hardware Installation Guide
CHAPTER 3
Configuring Communication
Between the Computer and
Controller
You can communicate with the controller through the following two methods:
•
•
It is advised that you use the Virtual Port over the Discovery Client to communicate with the
Virtual Port
You can contact a controller by directly connecting the computer to the controller using an Ethernet cable. By default, every controller is configured to respond to a fixed address: 169.254.242.121.
1.
2.
3.
4.
5.
6.
How to Install Using a Virtual Port
7.
Disconnect your computer from its hub or network.
Connect your computer to the controller with an Ethernet cable.
Click the Start button, then select
Run.
Type “ipconfig /release”.
Click the Start button, then select
Run.
Type “ipconfig /renew” and wait for the DHCP to timeout (approximately 60 sec). The computer will acquire a 169.254.x.x address.
Access a web browser and enter 169.254.242.121 into the Address field. The controller is now accessible through this Virtual Port.
Hardware Installation Guide
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16
Configuring Communication Between the Computer and Controller
Discovery Client
The Discovery Client provides a technician with a method of locating all of the controllers that are connected to a network. Controller information is displayed providing the ability to 'blink' the VertX controller Comm LED and configure the unit by launching a browser pointed at the Configuration
GUI of the targeted controller. When the Discovery Client is launched, a discover command is issued and the Configuration GUI screen is populated with the results. Also provided is the ability to refresh the Configuration GUI screen on command.
Use this feature when the controllers and network have been installed and are operational, but before the controller(s) has been configured. At this point, all of the controllers on a network will have the same host name and unknown IP addresses (assuming a DHCP environment). In this scenario, the only mechanism available to configure a controller is the serial debug port or by only placing one controller on the network at a time. The Discovery Client provides an easy to use mechanism to configure controllers.
The main limitation with using the Discovery Client is that it only finds panels on the same subnet as the computer you run it from.
6.
7.
8.
2.
3.
4.
5.
How to Install the Discovery Client
An operating system of Windows® XP with .NET Framework v2.0 installed is a requirement for the
Discovery Client to function properly.
1.
The Discovery Client can be downloaded by going to: http://www.hidcorp.com/downloads/DiscoveryClient.zip.
The File Download dialog displays. Click [Open].
When the contents of the zip file display, double-click setup.exe.
If a security warning appears click [Run].
The Discovery GUI setup window appears. Click [Next].
Select the installation folder and who should have access to the Discovery Client. Click [Next].
Confirm the installation location and click [Next].
Click [Close].
1.
2.
3.
How to Use the Discovery Client
The following provides information on how to access and use the Discovery Client.
Enable VertX controllers on the network.
Click the Start button, then select
All Programs > VertX Tool Box > Discovery GUI.
The Discovery GUI lists all of the controllers attached to the network. Controllers can be identified using the MAC Address label on the physical unit.
Note:
4.
If you are unsure of a controller’s physical location click [Blink ON] to start the Comm
LED blinking on the controller. The button will change to [Blink OFF]. When verification of the controller is complete, click [Blink OFF].
To configure the controller, Click [Configure Unit] to open the Basic Configuration page for that specific controller.
Hardware Installation Guide
Log on to goEntry
Log on to goEntry
To access goEntry you need to access its IP address through Internet Explorer 7.
How to Access the goEntry System
1.
2.
3.
4.
Open Internet Explorer 7 on a computer that has access to the network that the controller is connected to.
Enter the controller’s IP address, as configured through either the discovery client or virtual port, into the address bar of Internet Explorer 7.
Use the default log in credentials to access the goEntry system. The default user name and password for the administrator are:
•
Username: admin
•
Password: demo
For further instructions on how to set up the goEntry software, use the goEntry software user guide. You can access the goEntry software user guide by clicking the View Help button on the top right corner of the goEntry main window.
IMPORTANT: It is highly recommend that you change the default user name and password.
User names and passwords are chosen by the user when they are added to the system. For more information, refer to the Add a Person to goEntry procedure in the goEntry software user guide.
Hardware Installation Guide
17
Configuring Communication Between the Computer and Controller
18
Hardware Installation Guide
CHAPTER 4
Troubleshooting
The following section answers some of the common troubleshooting issues you may encounter during installation and use of goEntry.
Tamper
By default tamper inputs are enabled. If you do not intend on using tamper it must be jumpered.
1.
2.
3.
How to Jumper the Tamper Inputs
Locate section P7 on the controller.
Place a jumper on pins 7 and 8 on the tamper section of P7.
You should now no longer receiver tamper messages.
Keypad Readers
If you find that your keypad reader is not functioning properly, make sure that it supports the Dorado
8 bit burst format. If it does, refer to the reader’s documentation for further assistance.
Hardware Installation Guide
19
Troubleshooting
20
Hardware Installation Guide
Index
C
......................................... 6
Configure
..................................................... 9
Connections
.......................................................... 12
output
........................................................ 11
reader
........................................................ 10
...................................................... 11
D
............................................. 16 install
......................................................... 16 use
............................................................. 16
H
Hardware configure
.................................................... 9
mount
.......................................................... 9
I
Interface Address
............................................ 11
Introduction
....................................................... 5
J
............................................................... 9
O
Output Connections
........................................ 11
P
Parts List
............................................................ 6
Product Specifications
..................................... 6
R
....................................... 10
...................................... 11
T
Troubleshooting
.............................................. 19
V
V100
........................................................ 10
V1000
........................................................... 10
...................................................... 15 install
........................................................ 15
Hardware Installation Guide
21
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