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Component: Sound Sensor (Grove 101020023) (101020023) (Audio)

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Revision as of 15:24, 20 January 2023 by Wiki bot (talk | contribs)
Author Matrix Ltd
Version 1.0
Category Audio


Sound Sensor (Grove 101020023) component

The Sound sensor module is a simple microphone. Based on the power amplifier LM386 and the electret microphone, it can be used to detect the sound strength of the environment.

Component Source Code

Please click here to download the component source project: FC_Comp_Source_Sound_Sensor.fcfx

Please click here to view the component source code (Beta): FC_Comp_Source_Sound_Sensor.fcfx

Detailed description

No detailed description exists yet for this component

Examples

No additional examples


Macro reference

GetString
Reads the ADC as a direct voltage and returns as as tring 
- STRING Return


GetAverageByte
Function call to read the ADC as a byte average sample over time  
- BYTE NumSamples
 
- BYTE DelayUs
Number of micro seconds in between taking each sample 
- BYTE Return


GetAverageInt
Function call to read the ADC as a full width average sample over time  
- BYTE NumSamples
 
- BYTE DelayUs
Number of micro seconds in between taking each sample 
- UINT Return


GetVoltage
Reads the ADC as a direct voltage 
- FLOAT Return


GetInt
Blocking call to read the ADC at full bit depth  
- UINT Return


GetByte
Blocking call to read the ADC as a byte  
- BYTE Return



Property reference

Properties
Simulation
Tang Color
Colour of the moving part of the slider. 
Marker Color
Colour of the marker line across the slider tang. 
Scope Traces
Selects if the scope traces are automatically generated or not 
Connections
Channel
Analogue input channel - which pin is the analogue input conected to? 
Settings
VRef voltage
Used by the GetVoltage or GetString component macros to take an ADC reading and convert it into a Voltage. +VRef voltage x 10mV Default 500 = 5.0V  
VRef option
Defines what is used as the ADC maximum reference. ADC Range = GND to VRef Voltage. VDD - Defines the microcontrollers power supply pin as the max reference, VREF+ Pin - Dedicated pin on the microcontroller to allow for a variable reference voltage.  
Conversion speed
Clock setting to select how fast the ADC peripheral will perform an ADC conversion. The FRC setting is based on a RC time base and so will vary with temperature and pressure. Other settings are generally based on divisions of the master clock.  
Aquisition cycles
Number of micro seconds to wait for the ACD input to charge before starting the analogue sample. 
Bit Depth
Maximum number of digital bits the ADC can sample. 8 bit = ADC range 0 - 255 10 bit = ADC range 0 - 1023 12 bit = ADC range 0 - 4095  

==Macro reference==

GetString
Reads the ADC as a direct voltage and returns as as tring 
- STRING Return


GetAverageByte
Function call to read the ADC as a byte average sample over time  
- BYTE NumSamples
 
- BYTE DelayUs
Number of micro seconds in between taking each sample 
- BYTE Return


GetAverageInt
Function call to read the ADC as a full width average sample over time  
- BYTE NumSamples
 
- BYTE DelayUs
Number of micro seconds in between taking each sample 
- UINT Return


GetVoltage
Reads the ADC as a direct voltage 
- FLOAT Return


GetInt
Blocking call to read the ADC at full bit depth  
- UINT Return


GetByte
Blocking call to read the ADC as a byte  
- BYTE Return



Property reference

Properties
Simulation
Tang Color
Colour of the moving part of the slider. 
Marker Color
Colour of the marker line across the slider tang. 
Scope Traces
Selects if the scope traces are automatically generated or not 
Connections
Channel
Analogue input channel - which pin is the analogue input conected to? 
Settings
VRef voltage
Used by the GetVoltage or GetString component macros to take an ADC reading and convert it into a Voltage. +VRef voltage x 10mV Default 500 = 5.0V  
VRef option
Defines what is used as the ADC maximum reference. ADC Range = GND to VRef Voltage. VDD - Defines the microcontrollers power supply pin as the max reference, VREF+ Pin - Dedicated pin on the microcontroller to allow for a variable reference voltage.  
Conversion speed
Clock setting to select how fast the ADC peripheral will perform an ADC conversion. The FRC setting is based on a RC time base and so will vary with temperature and pressure. Other settings are generally based on divisions of the master clock.  
Aquisition cycles
Number of micro seconds to wait for the ACD input to charge before starting the analogue sample. 
Bit Depth
Maximum number of digital bits the ADC can sample. 8 bit = ADC range 0 - 255 10 bit = ADC range 0 - 1023 12 bit = ADC range 0 - 4095  

==Macro reference==

GetString
Reads the ADC as a direct voltage and returns as as tring 
- STRING Return


GetAverageByte
Function call to read the ADC as a byte average sample over time  
- BYTE NumSamples
 
- BYTE DelayUs
Number of micro seconds in between taking each sample 
- BYTE Return


GetAverageInt
Function call to read the ADC as a full width average sample over time  
- BYTE NumSamples
 
- BYTE DelayUs
Number of micro seconds in between taking each sample 
- UINT Return


GetVoltage
Reads the ADC as a direct voltage 
- FLOAT Return


GetInt
Blocking call to read the ADC at full bit depth  
- UINT Return


GetByte
Blocking call to read the ADC as a byte  
- BYTE Return



Property reference

Properties
Simulation
Tang Color
Colour of the moving part of the slider. 
Marker Color
Colour of the marker line across the slider tang. 
Scope Traces
Selects if the scope traces are automatically generated or not 
Connections
Channel
Analogue input channel - which pin is the analogue input conected to? 
Settings
VRef voltage
Used by the GetVoltage or GetString component macros to take an ADC reading and convert it into a Voltage. +VRef voltage x 10mV Default 500 = 5.0V  
VRef option
Defines what is used as the ADC maximum reference. ADC Range = GND to VRef Voltage. VDD - Defines the microcontrollers power supply pin as the max reference, VREF+ Pin - Dedicated pin on the microcontroller to allow for a variable reference voltage.  
Conversion speed
Clock setting to select how fast the ADC peripheral will perform an ADC conversion. The FRC setting is based on a RC time base and so will vary with temperature and pressure. Other settings are generally based on divisions of the master clock.  
Aquisition cycles
Number of micro seconds to wait for the ACD input to charge before starting the analogue sample. 
Bit Depth
Maximum number of digital bits the ADC can sample. 8 bit = ADC range 0 - 255 10 bit = ADC range 0 - 1023 12 bit = ADC range 0 - 4095