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Wiegand ilə D0wn və D1rty

A few months ago, we published a history of where Weigand came from and a XCHARXlight-on-technical-detailsXCHARX overview of how it works. For those of us that are more engineer-y, it left a bit to be desired. For me in particular, I recently was doing some low level work with one of my engineers. We were monitoring the lines from a badge reader and I couldnXCHARXt recall what the spec for the pulse width should be. For most people, this level of detail is overkill, but since for those of you who get down and dirty with D0/D1 of Wiegand, this post is for you.

Əvvəlki yazıdan xatırladığınız kimi, Wiegand bir sıra şeyləri təsvir etmək üçün birbaşa istifadə olunur - elektron effekt, giriş kartı, bir az axın

Wiegand
Wiegand - Bu məqamda qüdrətli giriş nəzarət interfeysi ətraflı şəkildə açıqlanıb.

associated with a card, or a specific reader-to-card interface. We are going to be referring to Wiegand as the signal that comes from an access control reader, out of the Data 0 (D0) and Data 1 (D1) lines. This data is interpreted as an access card number by parsing the bit stream.

Wiegand standartı yalnız bir de facto standartdır, lakin bir var Təhlükəsizlik Sektor Birliyi (SİA) sənəd "26-bit Wiegand (tm) Reader Interface üçün Access Control Standart Protokolu” which describes an agreed standard that should work with all manufacturers’ panels. Some of the basic information found in this document is found below.

When a reader with a Wiegand interface is hooked up to an access panel, it generally includes 6 lines with the below color scheme, which interfaces with the back end access panel.

Wiegand Kablolama
D0 (yaşıl) və D1 (ağ) çıxışları demək olar ki, universallaşdırılmış Wiegand oxucularıdır.

Back when Telaeris was developing our XPressProx mobile proximity reader to read HID Prox cards, we needed to demodulate the data directly from the RF signal (*). Once we decoded this signal, the data was pushed both over a USB connection as well driving the signal as over standard D0/D1 Wiegand lines. When we hooked up our Agilent 54622D Oscilloscope to the data lines and presented different cards to the reader, these are examples of what we saw:

26bit
26 bit çıxışı
26 çıxış bitləri 10000000100000010111001011 
   paritet hətta 1            parite tək 1 
                00000001 Mexanizmi = 1    
          BadgeID = 741 0000001011100101 
36bit
36 bit çıxışı
 36 çıxış bitləri 011011001011001000100101101011100101 
37bit
37 bit çıxışı
37 çıxış bitləri 0001001000000011111101000001011001000

The 26 bit card is parsed out for you to see as the bit format is almost universally standard. The 36 and 37 bit cards are part of HIDXCHARXs corporate 1000 line, which often mix up the location of the bits in weird and wonderful ways. The security in these cards is often simply that it is difficult to know how a bit stream might be parsed. These bitstreams can come in a variety of lengths, all the way up to 200 for some US Government PIV cards.

HID stil prox kartları üçün RF səviyyəsində nə ilə maraqlanırsınızsa, mənə elektron poçt göndərin.

A Şərh yaz

*

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