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Ads 1118 Ads1118 16 Bit Analog To Digital Converter Adc Spi Communication Module Development Board
Ads 1118 Ads1118 16 Bit Analog To Digital Converter Adc Spi Communication Module Development Board
Ads 1118 Ads1118 16 Bit Analog To Digital Converter Adc Spi Communication Module Development Board
Ads 1118 Ads1118 16 Bit Analog To Digital Converter Adc Spi Communication Module Development Board

Ads 1118 Ads1118 16 Bit Analog To Digital Converter Adc Spi Communication Module Development Board

Rs. 273.00 Rs. 336.00

  • Brand: https://www.ti.com/product/ADS1118
  • Product Code: SEN-ADC
  • SKU -
  • Availability: In Stock
  • Price in reward points: 3
  • For Bulk Order 9962060070
    Quick support on WhatsApp (+919962060070) only between morning 11am-4pm, no call will be answered
-The ADS1118 is a precision, low power, 16-bit analog-to-digital converter (ADC) that provides all features necessary to measure the most common sensor signals in an ultra-small, leadless X2QFN-10 package   or a VSSOP-10 package.
-The ADS1118 integrates a programmable gain amplifier (PGA), voltage reference, oscillator, and high-accuracy temperature sensor.
-These features, along with a wide power supply range from 2 V to 5.5 V, make the ADS1118 ideally suited for power- and space-constrained, sensor measurement applications.
-The ADS1118 can perform conversions at data rates up to 860 samples per second (SPS).
-The PGA offers input ranges from ±256 mV to ±6.144 V, allowing both large and small signals to be measured with high resolution.
-An input multiplexer (MUX) allows measuring two differential or four single-ended inputs.
-The high-accuracy temperature sensor can be used for system-level temperature monitoring or cold-junction compensation for thermocouples.
SPECIFICATIONS:
Low current consumption             continuous mode - only 150uA, single mode - automatic power off
Supply voltage                      DC2-5.5V
Working environment temperature     -40 ° C ~ 125 ° C
Temperature resolution              0.03%
Temperature accuracy                0.4 ° C
Interface communication type        SPI

OVERVIEW:

-K-type thermocouple temperature measurement

-Accuracy: <1 ° C

-High accuracy / repeatability at 0.2 ° C

-with cold junction/end compensation

-with software algorithms

-utilize the ADS1118 16-Bit ADC (with PGA)

PACKAGE INCLUDES:

1 PCS x Ads 1118 Ads1118 16 Bit Analog To Digital Converter Adc Spi Communication Module Development Board


/*//SOURCE CODE TAKEN FROM BELOW LINK

//https://github.com/denkitronik/ADS1118/blob/master/examples/ads1118example/ads1118example.ino


*  Example for Arduino Library for Texas Instruments ADS1118 - 16-Bit Analog-to-Digital Converter with 

*  Internal Reference and Temperature Sensor

*  

*  @author Alvaro Salazar <alvaro@denkitronik.com>

*  http://www.denkitronik.com

*

*/


#include "ADS1118.h"

#include <SPI.h>


//Definition of the Arduino pin to be used as the chip select pin (SPI CS pin). Example: pin 5

#define CS 5


//Creating an ADS1118 object (object's name is ads1118)

ADS1118 ads1118(CS);



void setup(){

    Serial.begin(115200);

    ads1118.begin(); //Initialize the ADS1118. Default setting: PULLUP RESISTOR, ADC MODE, RATE 8SPS, SINGLE SHOT, ±0.256V, DIFFERENTIAL AIN0-AIN1


    /* 

     *  EXAMPLES:

     *  The lines above in this method are needed only if you want to change the default setting. Use them to fit your needs

     *  If you need to take care of noise and the ENOB (Effective Number of Bits) see the tables at the end of this file

     */


    /* Changing the sampling rate. 

       Available values: RATE_8SPS, RATE_16SPS, RATE_32SPS, RATE_64SPS, RATE_128SPS, RATE_250SPS, RATE_475SPS, RATE_860SPS */

    ads1118.setSamplingRate(ads1118.RATE_8SPS);             //Using the setter method to change the sampling rate

    //ads1118.configRegister.bits.rate=ads1118.RATE_8SPS;   //Driving the config register directly. Uncomment if you want to use this way


    /* Changing the input selected. 

       Available values: Diferential inputs: DIFF_0_1, DIFF_0_3, DIFF_1_3, DIFF_2_3. 

                         Single ended input: AIN_0, AIN_1, AIN_2, AIN_3*/

    ads1118.setInputSelected(ads1118.DIFF_0_1);             //Using the setter method to change the input selected

    //ads1118.configRegister.bits.mux=ads1118.DIFF_0_1;     //Driving the config register directly. Uncomment if you want to use this way


    /* Changing the full scale range. 

       Available values: FSR_6144 (±6.144V)*, FSR_4096(±4.096V)*, FSR_2048(±2.048V), FSR_1024(±1.024V), FSR_0512(±0.512V), FSR_0256(±0.256V).

       (*) No more than VDD + 0.3 V must be applied to this device. */

    ads1118.setFullScaleRange(ads1118.FSR_0256);            //Using the setter method to change the full scale range

    //ads1118.configRegister.bits.pga=ads1118.FSR_0256;     //Driving the config register directly. Uncomment if you want to use this way


    

    /* Setting to continuous conversion mode */

    ads1118.setContinuousMode();                            //Using the setter method to set it to continuous mode

    //ads1118.configRegister.bits.operatingMode=CONTINUOUS; //Driving the config register directly. Uncomment if you want to use this way


    /* Setting to single shot conversion mode */

    ads1118.setSingleShotMode();                            //Using the setter method to set it to "single shot conversion and power down" mode

    //ads1118.configRegister.bits.operatingMode=SINGLE_SHOT;//Driving the config register directly. Uncomment if you want to use this way


    /* Disabling the pull-up resistor */

    ads1118.disablePullup();                                //Using the setter method to disable the pull-up resistor in Dout

    //ads1118.configRegister.bits.pullUp=PULLUP;            //Driving the config register directly. Uncomment if you want to use this way


    /* Enabling the pull-up resistor */

    ads1118.enablePullup();                                 //Using the setter method to enable the pull-up resistor in Dout

    //ads1118.configRegister.bits.pullUp=NO_PULLUP;         //Driving the config register directly. Uncomment if you want to use this way

}



void loop(){

    Serial.println(String(ads1118.getTemperature(),6)+" C"); //Getting temperature

    Serial.println(String(ads1118.getMilliVolts(),10)+"mV"); //Getting millivolts measured in the input selected

    

    //Serial.println(String(ads1118.getMilliVolts(ads1118.DIFF_0_1),10)+"mV"); //Specifying the input to be selected

    

    delay(200); //You can use a delay to save power. The ADS1118 will be in power down state during all the delay time. Optional

    

}


/*

              Table 1. Noise in μVRMS (μVPP) at VDD = 3.3 V   [1]

                DATA RATE FSR (Full-Scale Range)

  (SPS) ±6.144 V        ±4.096 V     ±2.048 V       ±1.024 V        ±0.512 V        ±0.256 V

  8     187.5 (187.5)   125 (125)    62.5 (62.5)    31.25 (31.25)   15.62 (15.62)   7.81 (7.81)

  16    187.5 (187.5)   125 (125)    62.5 (62.5)    31.25 (31.25)   15.62 (15.62)   7.81 (7.81)

  32    187.5 (187.5)   125 (125)    62.5 (62.5)    31.25 (31.25)   15.62 (15.62)   7.81 (7.81)

  64    187.5 (187.5)   125 (125)    62.5 (62.5)    31.25 (31.25)   15.62 (15.62)   7.81 (7.81)

  128   187.5 (187.5)   125 (125)    62.5 (62.5)    31.25 (31.25)   15.62 (15.62)   7.81 (12.35)

  250   187.5 (252.09)  125 (148.28) 62.5 (84.03)   31.25 (39.54)   15.62 (16.06)   7.81 (18.53)

  475   187.5 (266.92)  125 (227.38) 62.5 (79.08)   31.25 (56.84)   15.62 (32.13)   7.81 (25.95)

  860   187.5 (430.06)  125 (266.93) 62.5 (118.63)  31.25 (64.26)   15.62 (40.78)   7.81 (35.83)

  

      Table 2. ENOB from RMS Noise (Noise-Free Bits from Peak-to-Peak Noise) at VDD = 3.3 V

                DATA RATE FSR (Full-Scale Range)

  (SPS)   ±6.144 V    ±4.096 V   ±2.048 V     ±1.024 V    ±0.512 V    ±0.256 V

  8       16 (16)     16 (16)    16 (16)      16 (16)     16 (16)     16 (16)

  16      16 (16)     16 (16)    16 (16)      16 (16)     16 (16)     16 (16)

  32      16 (16)     16 (16)    16 (16)      16 (16)     16 (16)     16 (16)

  64      16 (16)     16 (16)    16 (16)      16 (16)     16 (16)     16 (16)

  128     16 (16)     16 (16)    16 (16)      16 (16)     16 (16)     16 (15.33)

  250     16 (15.57)  16 (15.75) 16 (15.57)   16 (15.66)  16 (15.96)  16 (14.75)

  475     16 (15.49)  16 (15.13) 16 (15.66)   16 (15.13)  16 (14.95)  16 (14.26)

  860     16 (14.8)   16 (14.9)  16 (15.07)   16 (14.95)  16 (14.61)  16 (13.8)

  

  

  [1] Texas Instruments, "ADS1118 Ultrasmall, Low-Power, SPI™-Compatible, 16-Bit Analog-to-Digital 

  Converter with Internal Reference and Temperature Sensor", ADS1118 datasheet, SBAS457E [OCTOBER 2010–REVISED OCTOBER 2015]. 

  

  Note: This information is taken from http://www.ti.com

        Copyright © 2010–2015, Texas Instruments Incorporated

*/    


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