Outline
• Circuits for Wireless
• Wireless Communications
– duplex, access, and cellular communication systems
– standards
• Receivers:
– heterodyne
– homodyne
– image reject
• Transmitters
– modulation
– up-conversion
• Transceivers
– frequency synthesis
Circuits for Wireless
Circuits for Wireless - Overview
• Noise limits the smallest signal
• noise figure
• cascade of stages
• Distortion limits the largest signal
– large (interfering) signals:
• compression, blocking, and desensitization
• inter-modulation
• cascade of stages
Wireless Communication Systems
Wireless Communications - Overview
• 'ether' is one medium shared by all
• 1st problem: Duplexing
– how to arrange for a two way communication link
• 2nd problem: Multiple Access
– how to arrange for multiple users
Duplexing - Overview
• Establish two way communications:
– Time division duplex:
• same rcv and xmt frequency channel
• alternating in time between rcv & xmt
– Frequency division duplex
• different frequency channel for rcv and xmt
• full duplex posible
TDD design issues
+ mobile units can communicate
+ Switch low loss (<1db)
+ XMT cannot desensitize RCV
- nearby XMT can overload RCV
+ channel leakage from P/A reduction by proper
timing
• packet based communication:
– Synchronization & Buffering needed
– digital implementation
FDD design issues
– duplexer loss (2~3dB)
– adds directly to noise figure
– reduces XMT efficiency
– duplexer isolation < ~50dB
– still desensitization of RCV by XMT possible
+ less sensitive to nearby XMT
– direct XMT antenna connection
– LO transients or P/A switch results in channel
leakage
+ analog implementation
Multiple Access - Overview
• Frequency Division Multiple Access (FDMA)
– divide band in channels & allocate different channel
for each user
• Time Division Multiple Access (TDMA)
– same channel for different users but each user
accesses in a different time-slot
• Code Division Multiple Access (CDMA)
– all users use same channel at same time but have a
different code
• Carrier Sense Multiple Access (CSMA)
– all users use same channel at different (random) Times
Tirso G. Ramírez S.
C.I.: 18392099
CAF
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