CAS LX 321 / MET LX 521 / GRS LX 621 Syntax: Introduction ...
LX Technologies, Inc. Engineering...
Transcript of LX Technologies, Inc. Engineering...
2011
LX Technologies, Inc.
Engineering Department
[HID - FIPS-201 READER INSTALLATION] This document outlines the FIPS-201 PIV Installation to an MR52 panel connected to the SPP Panel
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PUBLICATION INFORMATION
Title Date Action
HID Reader Installation Manual 08/2011 1st Edition
Changed even and odd parity setting 12/2011 2nd
Edition
and example 200 bit card
Fixed Error for MR52 parity setting 12/2011 fixed for 2nd
Edition
Updated Wiegand Screen
PROPRIETARY INFORMATION NOTICE
THIS MANUAL CONTAINS PROPRIETARY INFORMATION THAT IS THE PROPERTY OF LX TECHNOLOGIES, INC. THIS
MANUAL IS FURNISHED TO THE AUTHORIZED USERS OF SPECTRUMLX SOLELY TO FACILITATE THE USE OF SUCH
PROGRAMS AS SPECIFIED IN WRITTEN AGREEMENTS, AND EXCEPT AS PROVIDED IN SUCH WRITTEN
AGREEMENTS SHALL NOT BE REPRODUCED, COPIED OR USED, IN WHOLE OR IN
PART, WITHOUT THE WRITTEN PERMISSION OF LX TECHNOLOGIES, INC.
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While this information is presented in good faith and believed to be accurate, LX Technologies, Inc. disclaims the implied warranties of
merchantability and fitness for a particular purpose and makes no express warranties except as may be stated in its written agreement with
and for its customers.
SpectrumLX, SafeCryptNet, and QuickPic are all trademarks of LX Technologies, Inc. All rights reserved. Windows® 7 and WindowsXP® are
registered trademarks of Microsoft Corporation. Linux® is a registered trademark of Linus Torvalds. Other brand or product names are
trademarks of their respective owners.
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Table of Contents RK40C Reader Installation ............................................................................................................................. 5
iCLASS RK-40 ............................................................................................................................................. 5
Software Installation ..................................................................................................................................... 6
Card Format Fields ................................................................................................................................ 7
Wiegand Format Configuration ................................................................................................................ 8
Reader Screen ......................................................................................................................................... 10
Special Note: ........................................................................................................................................... 11
Example 200 bit card format: ..................................................................................................................... 11
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RK40C Reader Installation
TOP
BEEP GP01
GREEN GP02
RTN OC/TMPR
+VDC DATA1
SHLD DATA0
RED GP03
HOLD GP04
BOTTOM
MR 52 HID
VO +VDC
LED GREEN
BZR N/C
CLK/D1 DATA1
DAT/D0 DATA0
GND RTN
Note: This Reader will also work utilizing a 5V+ power supply. Connect 5V+ to +VDC and RTN to
GROUND.
iCLASS RK-40
The HID iCLASS RK-40 reader has a 4-bit keypad mode. It operates at 5-16 VDC. The average current
draw is 72/244 mA at 12 V. The LEDs and buzzer function the same as standard HID Wiegand/Prox
readers.
LX Technologies has tested the reader using 5V and 12 Volts; if you are utilizing 12 volts then the reader
may get a little warm. This is normal although the warmth should be isolated to the back of the reader
only.
Also note that when the reader has been idle for a period of time it may take up to 2 seconds to read a
card. Once a card is read additional cards can be processed at a faster rate as the reader has reactivated
its antenna.
Note: HID iCLASS readers must be unlocked with a special command card before they are operational
with the LX Technologies, Inc. software.
Figure 1 - RK4C HID Reader
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Software Installation This document describes the necessary steps to configure the readers on a standard SpectrumLX system
utilizing an SPP with MR52 panels. The Reader needs to be configured for a 200bit Wiegand output. If
your readers were purchased from LX Technologies they are preconfigured to the appropriate output if
you purchased them separately please contact us before attempting to install them.
The SpectrumLX software allows you to configure up to 4 individual card formats per SPP. Standard
Options include the Wiegand (26 bit or 37bit), Magnetic cards, facility code and cardholder offsets.
To configure the HID 200bit Card format we need to create the card format within the system settings.
To begin highlight and click “Card Format” in the Utilities Menu, a dialog box titled “Card Format” will
appear on your screen.
Figure 2 - Menu
Select Card Format then
select the SPP you are going
to change.
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Figure 3 - Card Format
Card Format Fields
SPP Drop-down Box Enter the SPP number where the card format will be used.
Format Record Drop-down Box Enter the number -- 1, 2, 3, or 4 -- of the record you're configuring.
Each card reader in the SpectrumLX System can be configured to
accept up to four different configurations of ID card or badge
formats.
Facility Code Scroll Box Enter the numerical designator of the facility where the card reader
will be used. The reader and the SpectrumLX access control
functions can use this number. (i.e. persons not having the correct
facility code on their ID cards or badges will not be allowed access)
Set to 0
Cardholder Offset Scroll Box Enter the numerical offset in the card formats.
REQUIRED IF MORE THAN ONE FORMAT IS CONFIGURED. Because
the LX Technologies hardware can utilize different card formats, an
"offset" is required. For example, if two different card formats are
used -- Wiegand and magnetic stripe -- both formats can start with
card number "1." Using the offset enables the computer to "see"
the difference between the formats, even though both cards are
numbered "1" in the computer database.
Set to 0
After selecting the
appropriate SPP, Press
the Configure Button.
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Figure 4 - Wiegand Format Screen
Wiegand Format Configuration
The appropriate Wiegand Format utilized by the reader and field panel for this application is 200 bits.
This screen will allow us to configure a format based on the total number of bits.
Note: Because the MR52 reads data in 4bit nibbles and the card is formatted using 5 bit nibbles the
system may generate a different number than the one on the back of the CAC. However, you should
not have any duplicate card numbers within the system.
Wiegand Format
CARD HOLDER Number of cardholder ID bits: This area states which
bits are associated with the cardholder.
Bit address to start from: Location where the data
starts on the Wiegand format.
28
110
TOTAL NUMBER OF BITS ON
CARD
This number sets the total number of bits acceptable
on the card. If more or less bits are detected during the swipe transaction, the
card is identified as a non-standard card, and appropriate
notification to security personnel can be carried out.
200
EVEN PARITY
Number of bits to sum for even
parity
Bit address to start from
Parity is a method for checking the accuracy of data
Transmission.
1
2
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ISSUE CODE
Number of Issue Code bits
Bit address to start from
The data code that identifies the unique issue code.
-1
-1
FACILITY CODE
Number of Facility Code bits
Bit address to start from
The data code that identifies the unique facility.
-1
-1
ODD PARITY
NUMBER OF BITS TO SUM FOR
ODD PARITY
BIT ADDRESS TO START
Parity is a method for checking the accuracy of data
transmission.
1
1
Navigate Buttons
Load
Downloads the complete database to the SPP
panels.
Save
Once you have configured the database, click on
the “Save” button to save the information.
Close
Click on the “Close” button to exit the dialog box.
Any unsaved changes will be lost.
If you get any negative numbers for the card number you need to lower the “Number of cardholder ID
bits” on the card holder section or move the “Bit address to start from” to a deterrent location.
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Reader Screen
From the SpectrumLX Configuration menu highlight and click “Reader Database (User Form)”, a dialog-
box titled “Reader Database” will appear on your screen. At the top, you will see three tabs, “Page 1,
“Page 2” and “Page 3”. To configure the reader to read the CAC; go to Page 2 as seen below;
Figure 5 - Reader Page 2 - Card format
Card FORMAT Check Check the appropriate boxes when a specified card format will be used
at this particular reader. (Check all that apply)
Card Formats 1 through 4 are defined under the Utilities Menu- Card
Format.
Each card reader can be configured to accept four different formats,
depending on the type and formatting of the cards, which have been
authorized for use at the reader.
Configure the formats
that you have setup in
the card format to
accept CAC cards.
Keypad: Set to 4 bit
word
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Special Note:
The “Wiegand format” is only based on even and old parity bit setting, so we need to find a set of bits
that will not changed based on the card... HID has an ‘SS’ values at the start of the string they send on all
cards...
The value is 1101 bits, so if we look at the bit 2 it is always ‘0’ so we will set it to the even parity, and the
odd bit we can use any of the ‘1’ in the first string. This will get us passed the “Wiegand Error”.
There are other values in the card format that HID sends to get the even and odd parity bits, but we will
focus on the first set of bits…
Even Parity - Group Box
Number of bits to the sum for even parity: 1
Bit address to start from: 2
Odd Parity – Group Box
Number of bits to the sum for Odd parity: 1
Bit address to start from: 1
Even parity group box and odd parity group boxes are the only ones you need make sure you set right or
you will get the “Wiegand Format Error”...
Example 200 bit card format:
200 Bit Output (BCD)
Serial Output:
Needs serial data because this is the only example that does not strip parity.
D4 32 48 58 21 0C 2D 31 71 B5 25 A1 68 5A 08 C9 2A DE 0A 61 84 32 48 43 E2
Decoded Wiegand Data:
SS 1 3 4 1 D 0 0 0 1 D 9 8 7 6
5 4
1101 0 1000 0 1100 1 0010 0 1000 0 1011 0 0000 1 0000 1 0000 1 1000 0 1011 0 1001 1 0001 0 1110 0
0110 1 1010 1 0010 0
D 1 D 1 D 1 2 3 4 5 6 7 8 9 0
1 1
1011 0 1000 0 1011 0 1000 0 1011 0 1000 0 0100 0 1100 1 0010 0 1010 1 0110 1 1110 0 0001 0 1001 1
0000 1 1000 0 1000 0
3 4 1 1 F 8
1100 1 0010 0 1000 0 1000 0 1111 1 0001 0
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Translated Card Data:
Agency Code = 1341, System Code = 0001, Credential Number = 987654, CS = 1, ICI = 1, PI =
1234567890,
OC = 1, OI = 1341, POA = 1, LRC = 8
On request, there is a standalone CAC card formatter software program for the SPP that will help you
define the card format for CAC cards. Please send an email to [email protected] and request
“cac_format.exe” and we would be happy to send it to you.