diff --git a/Microphone-Transceiver.md b/Microphone-Transceiver.md
index 940779b..72ba6cf 100644
--- a/Microphone-Transceiver.md
+++ b/Microphone-Transceiver.md
@@ -12,7 +12,7 @@ But thanks to many great contributors , currently we are supporting multi voice
 
 ## # Key Controls
 
-* **MIC. GAIN: **Cursor selection and use rotary encoder is used to select a fixed gain of x0.5, x1.0, x1.5, x2.0. The setting needs to be selected based, on the Microphone used which is connected via the Headset/ Microphone socket (standard smartphone 4 segment 3.5mm connector). The sensitivity of the microphone is shown on the lefthand side and should be configured so the range is green for most of the audio and never hits red to limit over deviation of the signal.
+* **MIC. GAIN: **Cursor selection and use rotary encoder is used to select a fixed gain of x0.5, x1.0, x1.5, x2.0. The setting needs to be selected based, on the Microphone used which is connected via the Headset/ Microphone socket (standard smartphone 4 segment 3.5mm connector). The sensitivity of the microphone is shown on the lefthand side and should be configured so the range is green for most of the audio and never hits red to limit over deviation of the signal. That mic gain  adjustment is in fact a post scaling factor, of each captured mic voice data . Then ,that adjustment should be only used,to make mic gain fine tuning of the non distorted voice . But  if the captured data is already distorted ,  due to too much mic sensitivity , or to close mic-mouth distance, or too loud voice ,   the ADC  saturation , should be addressed by other means (ALC or Boost adjustment , or increasing mic-mounth cms distance , or reduce the voice loudness.  
 
 * **F:**  This field set the Frequency for the transmission.