GY-63_MS5611/libraries/ADS1x15/README.md

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# ADS1X15
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Arduino library for I2C ADC ADS1015, ADS1115, and similar.
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For using I2C ADC with Raspberry pi or other SBC with Linux OS,
you can check similar library [here](https://github.com/chandrawi/ADS1x15-ADC).
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## Description
This library should work for the devices mentioned below,
although not all sensors support all functionality.
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| Device | Channels | Resolution | Max sps | Comparator | ProgGainAMP | Notes |
|:---------:|:----------:|:------------:|:---------:|:------------:|:-------------:|:---------|
| ADS1013 | 1 | 12 | 3300 | N | N | |
| ADS1014 | 1 | 12 | 3300 | Y | Y | |
| ADS1015 | 4 | 12 | 3300 | Y | Y | |
| ADS1113 | 1 | 16 | 860 | N | N | |
| ADS1114 | 1 | 16 | 860 | Y | Y | |
| ADS1115 | 4 | 16 | 860 | Y | Y | Tested |
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As the 1015 and the 1115 are both 4 channels these are the most
interesting from functionality point of view as these can also do
differential measurement.
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The address of the ADS1113/4/5 is determined by to which pin the **ADDR**
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is connected to:
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| ADDR pin connected to | Address | Notes |
|:-----------------------:|:---------:|:---------:|
| GND | 0x48 | default |
| VDD | 0x49 | |
| SDA | 0x4A | |
| SCL | 0x4B | |
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## Interface
### Initializing
To initialize the library you must call constructor as described below.
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- **ADS1x15()** base constructor, should not be used.
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- **ADS1013(uint8_t address, TwoWire \*wire = &Wire)** Constructor with device address,
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and optional the Wire interface as parameter.
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- **ADS1014(uint8_t address, TwoWire \*wire = &Wire)** Constructor with device address,
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and optional the Wire interface as parameter.
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- **ADS1015(uint8_t address, TwoWire \*wire = &Wire)** Constructor with device address,
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and optional the Wire interface as parameter.
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- **ADS1113(uint8_t address, TwoWire \*wire = &Wire)** Constructor with device address,
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and optional the Wire interface as parameter.
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- **ADS1114(uint8_t address, TwoWire \*wire = &Wire)** Constructor with device address,
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and optional the Wire interface as parameter.
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- **ADS1115(uint8_t address, TwoWire \*wire = &Wire)** Constructor with device address,
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and optional the Wire interface as parameter.
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After construction the **ADS.begin()** need to be called. This will return false
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if an invalid address is used.
The function **bool isConnected()** can be used to verify the reading of the ADS.
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The function **void reset()** is sets the parameters to their initial value as
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in the constructor.
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For example.
```cpp
#include "ADS1X15.h"
// initialize ADS1115 on I2C bus 1 with default address 0x48
ADS1115 ADS(0x48);
void begin() {
if (!ADS.isConnected()) {
// error ADS1115 not connected
}
}
```
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### I2C clock speed
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The function **void setWireClock(uint32_t speed = 100000)** is used to set the clock speed
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in Hz of the used I2C interface. typical value is 100 KHz.
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The function **uint32_t getWireClock()** is a prototype.
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It returns the value set by setWireClock().
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This is not necessary the actual value.
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When no value is set **getWireClock()** returns 0.
Need to implement a read / calculate from low level I2C code (e.g. TWBR on AVR),
better the Arduino Wire lib should support this call (ESP32 does).
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See - https://github.com/arduino/Arduino/issues/11457
Question: should this functionality be in this library?
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### Programmable Gain
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- **void setGain(uint8_t gain)** set the gain value, indicating the maxVoltage that can be measured
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Adjusting the gain allowing to make more precise measurements.
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Note: the gain is not set in the device until an explicit read/request of the ADC (any read call will do).
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See table below.
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- **uint8_t getGain()** returns the gain value (index).
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| PGA value | Max Voltage | Notes |
|:-----------:|:-------------:|:---------:|
| 0 | ±6.144V | default |
| 1 | ±4.096V | |
| 2 | ±2.048V | |
| 4 | ±1.024V | |
| 8 | ±0.512V | |
| 16 | ±0.256V | |
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- **float getMaxVoltage()** returns the max voltage with the current gain.
- **float toVoltage(int16_t raw = 1)** converts a raw measurement to a voltage.
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Can be used for normal and differential measurements.
The default value of 1 returns the conversion factor for any raw number.
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The voltage factor can also be used to set HIGH and LOW threshold registers
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with a voltage in the comparator mode.
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Check the [examples](https://github.com/RobTillaart/ADS1X15/blob/master/examples/ADS_read_comparator_1/ADS_read_comparator_1.ino).
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```cpp
float f = ADS.toVoltage();
ADS.setComparatorThresholdLow( 3.0 / f );
ADS.setComparatorThresholdLow( 4.3 / f );
```
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### Operational mode
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The ADS sensor can operate in single shot or continuous mode.
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Depending on how often conversions needed you can tune the mode.
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- **void setMode(uint8_t mode)** 0 = CONTINUOUS, 1 = SINGLE (default)
Note: the mode is not set in the device until an explicit read/request of the ADC (any read call will do).
- **uint8_t getMode()** returns current mode 0 or 1, or ADS1X15_INVALID_MODE = 0xFE.
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### Data rate
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- **void setDataRate(uint8_t dataRate)** Data rate depends on type of device.
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For all devices the index 0..7 can be used, see table below.
Values above 7 ==> will be set to the default 4.
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Note: the data rate is not set in the device until an explicit read/request of the ADC (any read call will do).
- **uint8_t getDataRate()** returns the current data rate (index).
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The library has no means to convert this index to the actual numbers
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as that would take 32 bytes.
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Data rate in samples per second, based on datasheet is described on table below.
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| data rate | ADS101x | ADS111x | Notes |
|:-----------:|----------:|----------:|:---------:|
| 0 | 128 | 8 | slowest |
| 1 | 250 | 16 | |
| 2 | 490 | 32 | |
| 3 | 920 | 64 | |
| 4 | 1600 | 128 | default |
| 5 | 2400 | 250 | |
| 6 | 3300 | 475 | |
| 7 | 3300 | 860 | fastest |
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### ReadADC Single mode
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Reading the ADC is very straightforward, the **readADC()** function handles all in one call.
Under the hood it uses the asynchronous calls.
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- **int16_t readADC(uint8_t pin = 0)** normal ADC functionality, pin = 0..3.
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If the pin number is out of range, this function will return 0.
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Default pin = 0 as this is convenient for 1 channel devices.
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```cpp
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// read ADC in pin 2
ADS.readADC(2);
// read ADC in pin 0 - two ways
ADS.readADC();
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ADS.readADC(0);
```
See [examples](https://github.com/RobTillaart/ADS1X15/blob/master/examples/ADS_minimum/ADS_minimum.ino).
To read the ADC in an asynchronous way (e.g. to minimize blocking) you need call three functions:
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- **void requestADC(uint8_t pin = 0)** Start the conversion. pin = 0..3.
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Default pin = 0 as this is convenient for 1 channel devices.
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- **bool isBusy()** Is the conversion not ready yet? Works only in SINGLE mode!
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- **bool isReady()** Is the conversion ready? Works only in SINGLE mode! (= wrapper around **isBusy()** )
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- **int16_t getValue()** Read the result of the conversion.
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in terms of code
```cpp
void setup()
{
// other setup things here
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ADS.setMode(1); // SINGLE SHOT MODE
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ADS.requestADC(pin);
}
void loop()
{
if (ADS.isReady())
{
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value = ADS.getValue();
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ADS.requestADC(pin); // request new conversion
}
// do other things here
}
```
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See [examples](https://github.com/RobTillaart/ADS1X15/blob/master/examples/ADS_read_async/ADS_read_async.ino).
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## ReadADC Differential
For reading the ADC in a differential way there are 4 calls possible.
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- **int16_t readADC_Differential_0_1()** returns the difference between 2 ADC pins.
- **int16_t readADC_Differential_0_3()** ADS1x15 only
- **int16_t readADC_Differential_1_3()** ADS1x15 only
- **int16_t readADC_Differential_2_3()** ADS1x15 only
- **int16_t readADC_Differential_0_2()** ADS1x15 only - in software (no async equivalent)
- **int16_t readADC_Differential_1_2()** ADS1x15 only - in software (no async equivalent)
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```cpp
// read differential ADC between pin 0 and 1
ADS.readADC_Differential_0_1(0);
```
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The differential reading of the ADC can also be done with asynchronous calls.
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- **void requestADC_Differential_0_1()** starts conversion for differential reading
- **void requestADC_Differential_0_3()** ADS1x15 only
- **void requestADC_Differential_1_3()** ADS1x15 only
- **void requestADC_Differential_2_3()** ADS1x15 only
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After one of these calls you need to call
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- **int16_t getValue()** Read the result of the last conversion.
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See [examples](https://github.com/RobTillaart/ADS1X15/blob/master/examples/ADS_differential/ADS_differential.ino).
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### ReadADC continuous mode
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To use the continuous mode you need call three functions:
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- **void setMode(0)** 0 = CONTINUOUS, 1 = SINGLE (default).
Note: the mode is not set in the device until an explicit read/request of the ADC (any read call will do).
- **int16_t readADC(uint8_t pin)** or **void requestADC(uint8_t pin)** to get the continuous mode started.
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- **int16_t getValue()** to return the last value read by the device.
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Note this can be a different pin, so be warned.
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Calling this over and over again can give the same value multiple times.
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```cpp
void setup() {
// configuration things here
ADS.setMode(ADS.MODE_CONTINUOUS);
ADS.requestADC(0); // request on pin 0
}
void loop() {
value = ADS.getValue()
sleep(1)
}
```
See [examples](https://github.com/RobTillaart/ADS1X15/blob/master/examples/ADS_continuous/ADS_continuous.ino)
.
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By using **bool isBusy()** or **bool isReady()** one can wait until new data is available.
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Note this only works in the SINGLE_SHOT modus.
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In continuous mode, you can't use **isBusy()** or **isReady()** functions to wait until new data available.
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Instead you can configure the threshold registers to allow the **ALERT/RDY**
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pin to trigger an interrupt signal when conversion data ready.
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### Threshold registers
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If the thresholdHigh is set to 0x0100 and the thresholdLow to 0x0000
the **ALERT/RDY** pin is triggered when a conversion is ready.
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- **void setComparatorThresholdLow(int16_t lo)** writes value to device directly.
- **void setComparatorThresholdHigh(int16_t hi)** writes value to device directly.
- **int16_t getComparatorThresholdLow()** reads value from device.
- **int16_t getComparatorThresholdHigh()** reads value from device.
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See [examples](https://github.com/RobTillaart/ADS1X15/blob/master/examples/ADS_read_RDY/ADS_read_RDY.ino).
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## Comparator
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Please read Page 15 of the datasheet as the behaviour of the
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comparator is not trivial.
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NOTE: all comparator settings are copied to the device only after calling
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**readADC()** or **requestADC()** functions.
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### Comparator Mode
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When configured as a **TRADITIONAL** comparator, the **ALERT/RDY** pin asserts
(active low by default) when conversion data exceed the limit set in the
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high threshold register. The comparator then de-asserts when the input
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signal falls below the low threshold register value.
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- **void setComparatorMode(uint8_t mode)** value 0 = TRADITIONAL 1 = WINDOW,
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- **uint8_t getComparatorMode()** returns value set.
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If the comparator **LATCH** is set, the **ALERT/RDY** pin asserts and it will be
reset after reading the sensor (conversion register) again.
*An SMB alert command (00011001) on the I2C bus will also reset the alert state.*
*Not implemented in the library (yet)*
In **WINDOW** comparator mode, the **ALERT/RDY** pin asserts if conversion data exceeds
the high threshold register or falls below the low threshold register.
In this mode the alert is held if the **LATCH** is set. This is similar as above.
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### Polarity
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Default state of the **ALERT/RDY** pin is **LOW**, can be to set **HIGH**.
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- **void setComparatorPolarity(uint8_t pol)**
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Flag is only explicitly set after a **readADC()** or a **requestADC()**
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- **uint8_t getComparatorPolarity()** returns value set.
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### Latch
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Holds the **ALERT/RDY** to **HIGH** (or **LOW** depending on polarity) after triggered
even if actual value has been 'restored to normal' value.
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- **void setComparatorLatch(uint8_t latch)** 0 = NO LATCH, not 0 = LATCH
- **uint8_t getComparatorLatch()** returns value set.
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### QueConvert
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Set the number of conversions before trigger activates.
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The **void setComparatorQueConvert(uint8_t mode)** is used to set the number of
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conversions that exceed the threshold before the **ALERT/RDY** pin is set **HIGH**.
A value of 3 (or above) effectively disables the comparator. See table below.
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- **void setComparatorQueConvert(uint8_t mode)** See table below.
- **uint8_t getComparatorQueConvert()** returns value set.
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| value | meaning | Notes |
|:-------:|:------------------------------------|:----------|
| 0 | trigger alert after 1 conversion | |
| 1 | trigger alert after 2 conversions | |
| 2 | trigger alert after 4 conversions | |
| 3 | Disable comparator | default |
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### Threshold registers comparator mode
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Depending on the comparator mode **TRADITIONAL** or **WINDOW** the thresholds registers
mean something different see - Comparator Mode above or datasheet.
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- **void setComparatorThresholdLow(int16_t lo)** set the low threshold; take care the hi >= lo.
- **void setComparatorThresholdHigh(int16_t hi)** set the high threshold; take care the hi >= lo.
- **int16_t getComparatorThresholdLow()** reads value from device.
- **int16_t getComparatorThresholdHigh()** reads value from device.
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### RP2040 specific
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- **bool begin(int sda, int scl)** begin communication with the ADC.
It has the parameter for selecting on which pins the communication should happen.
wireUsed is optional. Check RP2040 Pinout for compatible pins.
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If, "Wire1" is used, you need to add "&Wire1" in the constructor.
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## Future ideas & improvements
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#### Must
- Improve documentation (always)
- move code from .h to .cpp (0.4.0)
#### Should
#### Could
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- More examples ?
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- SMB alert command (00011001) on I2C bus?
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- constructor for ADS1X15 ?
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#### Wont (unless requested)
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- type flag?
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