Page 10 - Security Today, March 2018
P. 10

The Changing Landscape The Obsolescence of clock and data, and Wiegand
BTy Roscoe Coffman
he security landscape is constantly evolving with new products and technologies. With the introduction of these new and improved technologies, it is inevitable that products which have existed within the industry for years may no longer be the go-to choice when it
comes to selecting system equipment.
Readers and credentials are a perfect example. Because these piec-
es serve as a vital component of any access control solution, it is criti- cal they offer the most up-to-date technology to achieve maximum security. The technology behind readers and credentials has changed dramatically over the years, and end users now have multiple options to choose from.
The History of Clock and Data, and Wiegand
In 1969, an engineer with IBM, Forrest Parry, had the idea of attach- ing a piece of magnetic tape, similar to that used to record data for computers, to a card to be used as an identifier. He became frustrated trying different types of adhesives, all of which deformed the mag- netic tape. Venting his frustration to his wife while she was ironing, she suggested that he iron it on. It worked, and the American Bank- ing Association (ABA) format, or Clock and Data, was born.
Next step in the evolution: John R. Wiegand was born in Germa- ny in 1911 and came to the United States in the 1930s. He was inter- ested in audio amplifiers and ventured into the world of engineering, where he eventually discovered and patented the Wiegand effect, a type of magnetic effect in specially designed wire that outputs volt- age. It was initially thought that this would have applications in the automotive industry for ignition systems; however, it found its most popular application in the world of security in the early 1980s.
The Wiegand wires embedded inside of a plastic card were infi- nitely more durable than magnetic strip credentials, and only a lim- ited amount of data needed to be stored, such as a facility code and a number. Thus was born the most common credential in the security industry: the 26-bit Wiegand. It consisted of two parity bits, eight bits of facility code and 16 bits of ID code for a total of 26 bits. Physical limitations on how close the Wiegand wires could be and still function, combined with the CR-80 card size, gave us the maxi- mum amount of data that could reside on the card—37 bits.
Since the electrical standards for the readers was so widely ad- opted on access control panels, when better technology came along, the electrical aspect of Wiegand was retained. The problem is that both Wiegand and Clock and Data are one-way protocols; data flows out from the card reader, but nothing can be sent back. There is also no way to tell if the reader has been removed unless an auxiliary con- tact is installed, requiring another input point to be used to provide supervision of the reader. This means an added expense, so unless it has been carefully specified, it rarely happens.
Today, it is very likely that several existing access control readers could be torn off the wall and no one would know it until someone called in and reported the incident.
Alternative Options for Increased Security
In today’s evolving world, RS-485 protocol is almost universally available on all modern card readers and access control panels. This communication protocol is poll and respond, which means the reader doesn’t communicate until it is polled by the host panel, allowing the
\Billion Photos/Shutterstock.com
connected reader to be inherently supervised. If it becomes discon- nected, then the system will report that it is “offline.” Virtually all modern ISO 14443A, 14443B or 15693 readers support RS-485. In addition to the fact that the readers are supervised, they are exponen- tially more secure than even the proximity cards, and in today’s world are no more costly.
Open Supervised Device Protocol (OSDP) is a communication standard recently adopted by the Security Industry Association (SIA) that far surpasses the outdated Wiegand technology and great- ly improves interoperability between access control systems and sup- porting security products.
There are significant advantages of OSDP vs. Wiegand, a few of them being the ability for bi-directional communication between the reader and controller, longer read range and a simpler installation with less wiring involved.
Furthermore, Wiegand systems transfer information unencrypt- ed, increasing the risk for sensitive data to be intercepted. With OSDP, the access control system creates a secure tunnel between itself and the reader to protect the data being transmitted. This technology is supported by manufacturers like Mercury Security and will likely become more and more common in the industry. If you are not currently using this updated technology, you may be needlessly compromising your system’s security.
Similarly, if you are a systems sales professional
and are not strongly encouraging your custom-
ers to implement it, you are doing them a great
disservice.
Roscoe Coffman is the vice president of operations at Open Options.
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