AND8085 Datasheet, PDF(1/2 Page) ON Semiconductor

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AND8085 Datasheet, PDF (1/2 Pages) ON Semiconductor – An Introduction to FST

AND8085/D

An Introduction to FST

Prepared by

Fred Zlotnick

ON Semiconductor

http://onsemi.com

APPLICATION NOTE

Fast Switch Technology (FST) was introduced into the

marketplace in the early nineties and has become quite

popular with the networking and computing design

community to solve many specialized problems. Will Booth

of Insight Onsiteâ¢ claims the market was nearly $200 M in

the year 2000, and expected to continue to grow over the

next ten years. FST is the dominant bus switch technology,

prevailing over the less popular CBT (Cross Bar

Technology). FST is manufactured by ON Semiconductor

and several other important suppliers.

FST is very simply logic reduced to switches. Several

3âstate devices and buffers/multiplexers are constructed

using NâChannel switches instead of logic. The result is the

same logic function, with nearly zero delay. Although, this

sounds perfect, the FST device has no drive capabilities of

its own, but merely passes a signal along, more or less

unimpeded.

2.2 V

+5 V

Figure 1.

For those of you who want to understand the why and how

of this family, this diagram shows a single NâChannel FET

switch, biased at +5.0 V at the gate. A signal will pass

through the device, or not, depending upon the bias of the

gate. Interestingly, the FET can conduct in either direction

and unlike a logic gate the time it takes for a signal to pass

through this gate is close to zero. Another interesting

property is this FET, which acts just like a 5.0 V switch, until

the voltage reaches close to the supply voltage (Vcc). If the

voltage on the left were to reach 4.3 volts, the output will be

limited to within one VÏ of supply or approximately

4.3 volts. This would at first seem to be a stumbling block,

however, remember that many 5.0 volt circuits are âTTLâ

compatible and any voltage > 2.2 volts is redundant. For

âCMOSâ compatible circuits, the input must exceed

3.5 volts, so 4.3 V is not much of a problem. In fact, this

phenomenon, called âbody effectâ can be used to your

advantage. If the FST has a VccâVÏ as its supply, by

inserting a diode in series with its supply, then, the drop will

be [1.5 V. If one side of the FET were connected to a TTL

compatible, 5.0 V device and the other were connected to a

standard CMOS device operating at 3.3 V, then the FST

device would limit the voltage seen by the CMOS device,

but the 3.3 V output would flow unimpeded to the TTL

device. This then becomes a nearly perfect logic level

translator, with almost zero delay (when turned on).

+5 V

+VCC

+5 V

+3.5 V

+5 V

Figure 2.

April, 2002 â Rev. 0

Publication Order Number:

AND8085/D

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