In the commercial cell phones mostly we have WiFi, ZigBee and Bluetooth working. I was wondering if they use the same RF front end for sampling the signals as all the mentioned three standards reside on the same band (2.45 GHz). If yes, how the AGC(saturation of ADC) is managed knowing that the power level of all the three standards are very different.
Up until late last year, I worked at Broadcom Ltd, so I ran into this issue. Most of the time separate front ends. I'm less familiar with ZigBee than BT and WiFi, though. A few times I did see BT and WiFi sharing an LNA but never a PA. BT uses FSK, while WiFi uses OFDM, and the channel BW's are 1 MHz and 20/40/80 MHz, respectively. BT tends to use low IF transceiver architectures, while WiFi uses direct conversion. Tradeoffs among cost, complexity, and performance (as usual).
Not exactly my field, but...
An RF front-end, regardless of the bandwidth of its input, has only finite signal input level capacity. Some designs are better than others, but all are finite. To avoid out-of-band signals from reducing the amplitude available (and hence SNR) to the band(s) of interest, the "raw" input is typically pre-tuned via one or more bandpass sections.
For all input signals, a peak detector can be used to adjust the gain of the front-end to reduce limiting/clipping, because it's the peaks that cause clipping or compression, which cause the distortion that robs any signal of its full dynamic range capability.
The average level could be used, but it's less effective at reducing clipping/compression for composite signals with large peak-to-average ratios (and it's the clipping and compression that creates a lot of nonlinearity distortion).
The systems I have worked on used completely different front ends for high-speed/high-power interfaces like WiFi aka IEEE802.11xx vs low-speed/low-power interfaces based on IEEE802.15.4. Different chips, modulation schemes, etc.
Your question intrigued me so I just googled it:
This example from TI shows that the front ends are different. I guess that other vendors may use a single port for the chip but will split/switch it internally due to the different requirements for each standard.
At the end of the day it mostly depend on the system guy who designed it.
Do you have an example of cell phone with zigbee?
Wifi and BT ok, but I never saw one with zigbee.
For the circuits you would need aelectronics capable of working with different modulations and power.
I think that zigbee is designed for low data rate, low power sensors so I do not see it integrated into a cellphone.
Its not very common, but yes some smart phones are integrating zigbee modules.