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45 nm transistor 45nm =.045um (microns)= 450 Angstroms.

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Presentation on theme: "45 nm transistor 45nm =.045um (microns)= 450 Angstroms."— Presentation transcript:

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5 45 nm transistor 45nm =.045um (microns)= 450 Angstroms

6 Review Safety Test

7 Wireless Technology Wireless devices transmit information via Electromagnetic waves Early wireless devices –Radios – often called wireless in old WWII movies –Broadcast TV –TV remote controls –Garage door openers

8 Wireless technology Today’s wireless devices include –Mobile phones –Satellite TV –Satellite radio –Global Positioning Systems (GPS) –“Bluetooth” devices –Wi-Fi systems –RFID tags

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10 Apple iPhone

11 Mobile Phone (Cellular) Systems Mobile phones are two-way radios. They transmit and receive RF signals. Old style phones are not radios. Original mobile phones used a single large central antenna and had limited channels available to carry signals. Only a small number of mobile phones were available in a city due to the limited amount of usable frequency bands. Cellular technology allowed for a near limitless number of mobile phones to operate in a city.

12 Mobile Phone (Cellular) Systems Cellular systems operate at a frequency of 824 to 894 Mhz, and 1850 to 1990 Mhz. Other bands are also being used as demand increases. These frequency bands are controlled by the Federal government. The original cell phones operated at 824-894 MHz. Sometimes these phones are referred to as “analog phones” since digital technology had not yet been developed. Systems today operate mostly at 1850 to 1990 Mhz, the PCS band in the digital mode but can also operate at the lower frequency band. These phones are called “dual band” phones. The term “cellular” refers to the fact that service areas are divided into “cells” typically 1- 10 miles apart. Cell size is dependent on the population density of the area. Large population areas require closer spaced cells. Each cellular company has their own towers, thus the large number of towers throughout the area. Sometimes towers will have multiple sets for the same system or multiple systems.

13 PCS Band 1850-1990 MHZ

14 Grid pattern for cellular antenna Adjacent grids do not use the same frequency

15 Mobile Phone (Cellular) Systems Each phone has a unique code. If your cell phone is “on”, it is transmitting a signal to the nearest cell tower. This signal locates you and allows you to receive calls. It also identifies your phone, carrier, and status of your account. When you make a call, it is transmitted to the nearest tower and it is then routed to the person you called. The call may go via radio waves, land lines, or satellite. As you move, the call can be transferred to the next cell. This is done automatically as signal strength changes Phones typically transmit with around 600mW of power.

16 Typical cellular system antenna tower Base station RF transmit/receive modules

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18 Communities are trying to disguise cellular towers

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21 “ Bluetooth” “Bluetooth” named after a Swedish King that united the country. First proposed by Ericsson The systems utilizes an unregulated band of frequencies at 2.4 GHz that operate on a relatively short distance, about 10m. Bluetooth uses a “frequency hop transceiver” to handle device traffic. A radio channel is shared by a group of devices and is synchronized by one device known as the master. This forms a piconet. Bluetooth devices can be used to connect a headset to a cellular phone, a printer to a computer, a digital camera to a computer, etc. Because “Bluetooth” circuits are low power with low battery requirements, the chipsets are relatively inexpensive. Many newer devices have “Bluetooth” already built into them.

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23 Wi-Fi –provides access to internet wirelessly Uses IEEE standard 802.11 Transmits at –2.4 GHz (802.11b and 802.11g) –5.0 GHz (802.11a) Transfer Rates –802.11a and 802.11g (54 Megabits per second) –802.11b (11 Mega bits per second) Frequency hopping for security Range: about 100 meters (300 feet) Range limited by output power level.

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26 “Bluetooth” vs. Wi-Fi Both use the 2.4 GHz frequency band Both could use the same antenna “Bluetooth” is for short range, about 10m Wi-Fi has a longer range, about 100m “Bluetooth” can operate from a small battery Wi-Fi requires higher power, usually plugs into a home electrical outlet

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28 RFID tags Passive -uses the incoming signal for power to transmit Active- requires an internal power supply, more expensive and less widely used Could replace bar codes and security attachments on merchandise Implantable for medical and security data

29 Implantable RFID device

30 Antenna Design In antenna design, an important design parameter is the wavelength of the EM wave Wavelength is a function of frequency Antenna length is typically either 1.1 wavelength 2.¼ wavelength 3.½ wavelength

31 Frequency vs wavelength Wavelength

32 Wavelength Calculations Wavelength units:  (wavelength) m/cycle f (frequency) cycles/sec = hertz c (speed of light) m/sec  3.0 x 10 8 m/sec Wavelength equation  c / f m/cycle = (m/sec) / (cycles/sec)

33 Sample calculation Find the wavelength of a frequency of 850 MHz 1.Convert 850 MHz to Hz 850 MHz = 850 x 10 6 Hz = 8.50 x 10 8 Hz 2.Use wavelength equation = c/f where c = speed of light = 3.0 x 10 8 m/sec  x 10 8 m/sec ) / (8.50 x 10 8 cycles/sec)  =.353 m/cycle Convert to cm gives  = 35.3 cm/cycle 6.For a ¼ wavelength antenna = (35.3cm/cycle)/4=8.825cm/cycle

34 Assignment due next class HW #5 from the web site –Frequency and wavelength calculation Begin discussions with your team on what application to pursue for your project


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