background image

Part No. 5375-901, Rev E.1

 

MaxiProx

® 

Installation Guide

 

Page 18 of 19 

 

March 2012 

© 2008 - 2012 HID Global Corporation.  All rights reserved. 

Case 2: 

Customer Code 

= 74

 are structured as follows: 

421  8421      8421 8421 8421 8421 8421 8421  8421 8421 8421 
CCC CCCC 1 aaaa  bbbb cccc dddd eeee   ffff    gggg hhhh  iiii 
CCC CCCC  

- Customer code 

 

 

- fixed bit “1” 

aaaa   

- Most significant nibble of message 

bbbb   

- Second MSN 

cccc 

 

 

- next  nibble 

hhhh   

- least significant nibble of message 

iiii 

- LRC of nibbles aaaa to hhhh, start (B) and end sentinel (F) (xor of the nibbles or the even parity of the 

respective column) 

The output from the reader will look like the following: 

1248p 1248p    1248p     1248p     1248p     1248p   1248p    1248p    1248p  1248p 1248p 
<B> <aaaap> <bbbbp> <ccccp> <ddddp> <eeeep> <ffffp> <ggggp> <hhhhp> <F> <iiiip> 
start   data a     data b      data c    data d    data e      data f    data g    data h   end   LRC 

The message structure follows the ISO/ABA 

Track 2

 standard.  The first character is a start sentinel: 

B

 

(hex), which is followed by data.  After the data there is an end sentinel: 

F

 (hex), followed by an LRC.  

The LRC is the xoring of the message in accordance to the bit position.  Each character has an odd 
parity bit that covers bit 1 to bit 4 of the nibble. 

A typical message: 

B 1 2 3  F

 

LRC

 the bits broken down: 

1248p 1248p 1248p 1248p 1248p 1248p 
11010 10000 01000 11001 11111 00101 
B         1         2         3         F         4 
start    <        data             > end     LRC 

4.2.5

 

Bit Stream 

The bit stream will consist of 25 leading zeros, the message and fill with zeros until the end of the 
message.  The message will consist of a minimum of 210 bits. 

Example 

00000000000000000000000000 11010 10000 01000  11001  11111  00100 00000000000000...000000 
 

 

                          B        1           2         3         F         LRC 

4.2.6

 

Output Specification 

Vol = 0.8 V 
Voh = 3.5 V 
sink = 25 ma 
source = 5 ma 

Содержание MaxiProx DFM Reader - 5375

Страница 1: ...MaxiProx DFM Reader 5375 INSTALLATION GUIDE 5375 901 Rev E 1 March 2012 2008 2012 HID Global Corporation All rights reserved 15370 Barranca Parkway Irvine CA 92618...

Страница 2: ...witch and Jumper Settings 7 2 8 Tamper Switch 9 2 9 Mounting 9 2 10 Power Supply 9 2 11 Auto tune Operation 10 2 12 Reader Testing 10 2 13 Power Up Tune 10 2 14 Periodic Auto tune 10 2 15 Supervisor M...

Страница 3: ...15 Table 10 Data Pulses Timing Parameters 15 Table 11 Data Timing Timing Chart 17 HID GLOBAL HID the HID logo and MaxiProx are the trademarks or registered trademarks of HID Global Corporation or its...

Страница 4: ...n Transponders Proximity Cards or ProxKeys are presented to the front of the MaxiProx The LED is red when ready to read a transponder The LED turns green and the beeper sounds when the transponder is...

Страница 5: ...n Failure to install the P2 shunt jumper in the correct position will permanently damage the MaxiProx unit The following states the P2 shunt jumper installation Power Supply Voltage Jumper Position 24...

Страница 6: ...297 C or equivalent A 22 AWG twisted pair shielded stranded cable Belden 9330 or equivalent is often required for the tamper switch Follow the recommendations of the manufacturer of the Host system If...

Страница 7: ...2 2 7 Dip Switch and Jumper Settings Verify the default settings according to the model ordered or set the DIP Switches and Jumper positions according to the following Table 3 DIP Switch and Jumper Se...

Страница 8: ...term OFF OFF ON OFF OFF OFF 2 3 Table 7 Baud Rate Chart RS232 and RS422 BAUD SW1 7 SW1 8 SW2 1 9600 ON ON ON 4800 OFF ON ON 2400 ON OFF ON 1200 OFF OFF ON Table 8 Switch Description SW5 Switch Default...

Страница 9: ...vailable on TB1 Pins 4 and 5 and are either normally open or normally closed dependent upon the position of the jumper on P1 Install the jumper to connect pins 1 and 2 if you need the normally open co...

Страница 10: ...n Flash Beep on valid read SW1 5 on 2 13 Power Up Tune Following this initial power up sequence the reader will perform power up Auto tune It will beep and turn the access LED amber for 1 second to in...

Страница 11: ...r screw Make sure that the Auto tune indicator LED remains in a steady green state If the LED is red remove the cover and re mount the unit using a non metallic spacer to position it further away from...

Страница 12: ...5 VDC DEFAULT SHUNT PINS 1 AND 2 11 20 VDC SW1 SW2 SW5 SW5 1 SW5 2 SW5 3 SW5 4 SW5 5 SW5 6 SW5 7 SW5 8 DATA 1 ISOLATION DATA 0 ISOLATION RS422 TERM RESISTOR RS 232 422 LINE 1 RS 232 422 LINE 2 NOT USE...

Страница 13: ...l being received from the card by re directing excite field transmissions into the receiver circuitry Moving the reader away from the metal objects reduces energy loss Try to limit the amount of metal...

Страница 14: ...generally sends out the same bit pattern as previously programmed on the card Consult factory for variations to this method A 26 bit Wiegand format will be used in the examples below The 26 bits of t...

Страница 15: ...ice on a reader is measured at the control panel that is controlling the input device with reference to the signal ground at the panel 4 1 3 Signal Levels The Data One Data Zero and LED Control conduc...

Страница 16: ...form of a parity bit Each character consists of five bits The maximum number of characters for a magnetic strip card encoded on Track 2 are 40 this product will output less than 40 characters The dat...

Страница 17: ...e adjustable for cards traveling at 4 inches per second to 20 inches per second This relates to bit times of 3 3 ms and 666us respectively There are 75 bits per inch on Track 2 4 2 3 Output signal Lev...

Страница 18: ...hp F iiiip start data a data b data c data d data e data f data g data h end LRC The message structure follows the ISO ABA Track 2 standard The first character is a start sentinel B hex which is follo...

Страница 19: ...um The checksum is calculated by first grouping the message data into the pairs CC DD DD DD DD DD Each pair of characters represents one byte of data Then each pair of characters is converted from ASC...

Отзывы: