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Audio TDD

Time:2023-07-28 Views:798
TDD noise
    Source: Since GSM shares 8 physical channels on each interval 200KHz channel, that is, 8 physical channels on the same frequency, that is, time division multiplexing for 8 users on the same frequency (it seems that it can also be understood as time division multiplexing for time users (it seems that it can also be understood as Time-division multiple access TDMA), and time division multiple access TDMA), for each user‘s mobile phone, Only 1/8 of the time is on the phone, while for the remaining 7/8, only 1/8 of the time is on the phone, while the remaining 7/8 is idle, with a recurrence frequency of approximately 216.7 Hz
The manifestation of TDD noise
    The buzzing sound we hear is the packet generated by PA during emission
    Envelope noise, the generated envelope noise, is because the auditory frequency range of the human ear is 20Hz~20KHz. 216.8Hz is indeed within the range of 20Hz~20KHz that falls on the human ear, and 216.8Hz is within the range that can be heard by the human ear. If there is a phone call or text message, within the range that can be heard. If there is a phone call or text message, a "hum" or "buzzing" sound will be heard in the landline microphone
The manifestation of TDD noise
    Common subjective phenomena include the following: ①. During a voice call, a clear buzzing current sound can be heard on the earpiece or speaker all the time. ②. During a voice call, the other party can hear a clear buzzing current sound all the time. ③. When a call is made, a creaking noise appears immediately after the ringing of the call bell, and then the noise disappears. ④. When a call is made, a creaking noise appears in the earpiece at the moment of connecting the call, Then the noise disappeared again ⑤. During the call, a buzzing current sound suddenly appeared in some areas with poor signal, and the signal improved before disappearing
Pathways caused by TDD call
    Interference generated by PA sudden operation driving power supply 2. Coupling through different paths on the motherboard 3. Coupling through RF interface (such as antenna to mic)
TDD Call TDD Solution TDD Solution
    1. Protection of audio circuits 1. Protection of audio circuits 2. Power supply stabilization 2. Power supply stabilization 3. Segmentation and protection of RF and audio devices 4. Filtering of SPK and REC. Filtering of REC.
    Filtering of TDD Noise
    TDD Noise prone patterns
    Weak signal low battery
Protection of audio circuits
    a. The wiring should be run in parallel and protected by b, avoiding approaching large signal areas; c. The audio power supply should be clean; The audio filtering capacitor should be well grounded, and the bias power and ground of the mic should be well protected; The bias power supply and ground of the mic should be well protected; e. If the wiring is too long, the receiver AMP must be as close as possible to the CPU end. It can receive audio signals. If the wiring is too long, the receiver AMP must be as close as possible to the CPU end to amplify the sound signal before the audio signal is interfered with; f. The routing at both ends of the receiver should be as close as possible, with GND wrapped up and down. The routing at both ends of the receiver should be as close as possible, with GND wrapped up and down. g. The interference signal on the differential line can be expressed as a Common-mode interference part+differential mode interference part. The interference signal on the differential line can be expressed as a Common-mode interference part+capacitance between lines to remove differential mode interference, and the capacitance of each line to ground is to remove Common-mode interference. So special attention should be paid in this regard. Regarding the wiring between the grounding devices and the shells, the grounding must be fully connected. VBAT should not form a loop and should not interfere with the audio and other audio lines. The audio lines should be processed well and the edges should not have signals that are prone to vibration and high-speed digital signals that work simultaneously with audio. A filtering network should be reserved, Pay attention to the placement of audio devices, consider the similarities and differences between the PIFA antenna and the monopole antenna, and plan the audio well. Consider the similarities and differences between the PIFA antenna and the monopole antenna, especially the position of the components and the antenna, especially the MIC.

 












   
      
      
   
   


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