33.7.3 Analog-to-Digital (ADC) characteristics

Table 33-11. Operating Conditions
SymbolParameterConditionsMin.Typ.Max.Units
RESResolution8-12bits
fCLK_ADCADC Clock frequency30-2100kHz
Sample rate (1)Single shot (with VDDANA > 2.7V) (4)5-300ksps
Free running5-350 (3)ksps
Sampling time (1)250--ns
Sampling time with DAC as input(2)-3--µs
Sampling time with Temp sens as input(2)-10--µs
Sampling time with Bandgap as input(2)-10--µs
Conversion time (1)1x Gain-6-cycles
VREFVoltage reference range, (VREFA or VREFB)1.0-VDDANA-0.6V
INT1VInternal 1V reference (2,5)-1.0-V
INTVCC0Internal ratiometric reference 0 (2)-VDDANA/1.48-V
INTVCC0 Voltage ErrorInternal ratiometric reference 0 error (2)-1.0-+1.0%
INTVCC1Internal ratiometric reference 1 (2)VDDANA>2.0V-VDDANA/2-V
INTVCC1 Voltage ErrorInternal ratiometric reference 1 error (2)2.0V < VDDANA < 3.63V
-1.0-+1.0%
Conversion range (1)Differential mode-VREF/GAIN-+VREF/GAINV
Single-ended mode0.0-+VREF/GAINV
CSAMPLESampling capacitance (2)-3.5-pF
RSAMPLEInput channel source resistance (2)--3.5
IDDDC supply current (1)fCLK_ADC = 2.1MHz (3)-1.252.78mA
Note:
  1. These values are based on characterization. These values are not covered by test limits in production.
  2. These values are based on simulation. These values are not covered by test limits in production or characterization.
  3. In this condition and for a sample rate of 350 ksps, a conversion takes 6 clock cycles of the ADC clock (conditions: 1X gain, 12-bit resolution, differential mode, free-running).
  4. All single-shot measurements are performed with VDDANA > 2.7V (cf. ADC errata).
  5. It is the buffered internal reference of 1.0V derived from the internal 1.1V bandgap reference.
Table 33-12. Differential Mode (Device Variant A)(1,2,3,4)
SymbolParameterConditionsMin.Typ.Max.Units
ENOBEffective Number Of BitsWith gain compensation-10.510.7bits
TUETotal Unadjusted Error1x Gain1.54.317.0LSB
INLIntegral Non Linearity1x Gain1.01.36.3LSB
DNLDifferential Non Linearity1x Gain±0.3±0.5±0.95LSB
GEGain ErrorExt. Ref 1x-15.02.5+20.0mV
VREF = VDDANA/1.48-20.0-1.5+10.0mV
VREF = INT1V-15.0-5.0+10.0mV
Gain Accuracy (5)Ext. Ref. 0.5x±0.1±0.2±0.45%
Ext. Ref. 2x to 16x±0.1±0.2±2.0%
OEOffset ErrorExt. Ref. 1x-10.0-1.5+10.0mV
VREF = VDDANA/1.48-10.00.5+10.0mV
VREF = INT1V-10.03.0+10.0mV
SFDRSpurious Free Dynamic Range

1x Gain


FCLK_ADC = 2.1 MHz


FIN = 40 kHz


AIN = 95% FSR

64.270.078.9dB
SINADSignal-to-Noise and Distortion61.465.066.0dB
SNRSignal-to-Noise Ratio64.365.566.0dB
THDTotal Harmonic Distortion-74.8-64.0-65.0dB
Noise RMST=25°C0.61.01.6mV
Table 33-13. Differential Mode (Device Variant B)(1,2,3,4)
SymbolParameterConditionsMin.Typ.Max.Units
ENOBEffective Number Of BitsWith gain compensation-10.510.9bits
TUETotal Unadjusted Error1x Gain1.54.317LSB
INLIntegral Non Linearity1x Gain11.36.3LSB
DNLDifferential Non Linearity1x Gain±0.3±0.5±0.95LSB
GE Gain Error Ext. Ref 1x-152.520mV
VREF = VDDANA/1.48-20-1.510mV

VREF = INT1V

-40-540mV
Gain Accuracy (5) Ext. Ref. 0.5x ±0.1 ±0.2 ±0.45%
Ext. Ref. 2x to 16x ±0.1 ±0.2 ±2.0%
OE Offset Error Ext. Ref. 1x-20-1.520mV
VREF = VDDANA/1.48-200.520mV

VREF = INT1V

-40340mV
SFDRSpurious Free Dynamic Range

1x Gain

FCLK_ADC = 2.1 MHz

FIN = 40 kHz

AIN = 95% FSR

64.27078.9dB
SINADSignal-to-Noise and Distortion61.46566dB
SNRSignal-to-Noise Ratio64.365.566dB
THDTotal Harmonic Distortion-74.8-64-65dB
Noise RMST = 25°C0.611.6mV
Note:
  1. Maximum numbers are based on characterization and not tested in production, and valid for 5% to 95% of the input voltage range.
  2. Dynamic parameter numbers are based on characterization and not tested in production.
  3. Respect the input common mode voltage through the following equations (where VCM_IN is the Input channel common mode voltage):
    1. If |VIN| > VREF/4
      • VCM_IN < 0.95*VDDANA + VREF/4 – 0.75V
      • VCM_IN > VREF/4 -0.05*VDDANA -0.1V
    2. If |VIN| < VREF/4
      • VCM_IN < 1.2*VDDANA - 0.75V
      • VCM_IN > 0.2*VDDANA - 0.1V
  4. The ADC channels on pins PA08, PA09, PA10, PA11 are powered from the VDDIO power supply. The ADC performance of these pins will not be the same as all the other ADC channels on pins powered from the VDDANA power supply.
  5. The gain accuracy represents the gain error expressed in percent. Gain accuracy (%) = (Gain Error in V x 100) / (2*VREF/GAIN)
Table 33-14. Single-Ended Mode (Device Variant A)(1,2,3)
SymbolParameterConditionsMin.Typ.Max.Units
ENOBEffective Number of BitsWith gain compensation-9.59.8Bits
TUETotal Unadjusted Error1x gain-10.540.0LSB
INLIntegral Non-Linearity1x gain1.01.67.5LSB
DNLDifferential Non-Linearity1x gain±0.5±0.6±0.95LSB
GEGain ErrorExt. Ref. 1x-5.00.7+5.0mV
Gain Accuracy (4)Ext. Ref. 0.5x±0.1±0.34±0.4%
Ext. Ref. 2x to 16X±0.01±0.1±0.15%
OEOffset ErrorExt. Ref. 1x-5.01.5+10.0mV
SFDRSpurious Free Dynamic Range

1x Gain


FCLK_ADC = 2.1 MHz


FIN = 40 kHz


AIN = 95% FSR

63.165.066.5dB
SINADSignal-to-Noise and Distortion50.759.561.0dB
SNRSignal-to-Noise Ratio49.960.064.0dB
THDTotal Harmonic Distortion-65.4-63.0-62.1dB
Noise RMST = 25°C-1.0-mV
Table 33-15. Single-Ended Mode (Device Variant B)(1,2,3)
SymbolParameterConditionsMin.Typ.Max.Units
ENOBEffective Number of BitsWith gain compensation-9.59.9Bits
TUETotal Unadjusted Error1x gain-10.545LSB
INLIntegral Non-Linearity1x gain11.67.5LSB
DNLDifferential Non-Linearity1x gain ±0.5 ±0.6±0.95LSB
GE Gain ErrorExt. Ref. 1x-150.715mV
Gain Accuracy(4)Ext. Ref. 0.5x ±0.2 ±0.34 ±0.6%
Ext. Ref. 2x to 16X±0.01±0.1±0.3%
OEOffset ErrorExt. Ref. 1x-151.525mV
SFDRSpurious Free Dynamic Range

1x Gain

FCLK_ADC = 2.1 MHz

FIN = 40 kHz

AIN = 95% FSR

63.16566.5dB
SINADSignal-to-Noise and Distortion50.759.561dB
SNRSignal-to-Noise Ratio49.96064dB
THDTotal Harmonic Distortion-65.4-63-62.1dB
Noise RMST = 25°C-1-mV
Note:
  1. Maximum numbers are based on the characterization and not tested in production, and for 5% to 95% of the input voltage range.
  2. Respect the input common mode voltage through the following equations (where VCM_IN is the Input channel common mode voltage) for all VIN:
    • VCM_IN < 0.7*VDDANA + VREF/4 – 0.75V
    • VCM_IN > VREF/4 – 0.3*VDDANA - 0.1V
  3. The ADC channels on pins PA08, PA09, PA10, PA11 are powered from the VDDIO power supply. The ADC performance of these pins will not be the same as all the other ADC channels on pins powered from the VDDANA power supply.
  4. The gain accuracy represents the gain error expressed in percent. Gain accuracy (%) = (Gain Error in V x 100) / (VREF/GAIN).