TMS320F2810 Datasheet, PDF(144/172 Page) Texas Instruments

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

TMS320F2810 Datasheet, PDF (144/172 Pages) Texas Instruments – Digital Signal Processors

◁

TMS320F2810, TMS320F2811, TMS320F2812

TMS320C2810, TMS320C2811, TMS320C2812

SPRS174T â APRIL 2001 â REVISED MAY 2012

www.ti.com

6.30.2 ADC Electrical Characteristics Over Recommended Operating Conditions

Table 6-44. DC Specifications(1)

PARAMETER

MIN TYP MAX UNIT

Resolution

Bits

ADC clock(2)

kHz

25 MHz

INL (Integral nonlinearity)(3)

DNL (Differential nonlinearity)(3)

Offset error(4)

ACCURACY

1â18.75 MHz ADC clock

Â±1.5 LSB

Â±1 LSB

â80

80 LSB

Overall gain error with internal reference(5)

Overall gain error with external reference(6)

F281x

C281x

If ADCREFP â ADCREFM = 1 V Â± 0.1%

â200

â80

â50

200

LSB

50 LSB

Channel-to-channel offset variation

Â±8

LSB

Channel-to-channel Gain variation

Â±8

LSB

Analog input voltage (ADCINx to ADCLO)(7)

ANALOG INPUT

ADCLO

â5

5 mV

Input capacitance

Input leakage current

INTERNAL VOLTAGE REFERENCE(5)

Â±5

ÂµA

Accuracy, ADCVREFP

Accuracy, ADCVREFM

Voltage difference, ADCREFP â ADCREFM

1.9

2.1

0.95

1 1.05

Temperature coefficient

PPM/Â°C

Reference noise

EXTERNAL VOLTAGE REFERENCE(6)

100

ÂµV

Accuracy, ADCVREFP

Accuracy, ADCVREFM

Input voltage difference, ADCREFP â ADCREFM

1.9

2.1

0.95

1 1.05

0.99

1 1.01

(1) Tested at 12.5-MHz ADCCLK.

(2) If SYSCLKOUT â¤ 25 MHz, ADC clock â¤ SYSCLKOUT/2.

(3) The INL degrades for frequencies beyond 18.75 MHzâ25 MHz. Applications that require these sampling rates should use a 20K resistor

as bias resistor on the ADCRESEXT pin. This improves overall linearity and typical current drawn by the ADC will be a few mA more

than 24.9-kÎ© bias. The ADC module in C281x devices can operate at 24.9k bias on ADCRESEXT pin for the full range 1â25 MHz.

(4) 1 LSB has the weighted value of 3.0/4096 = 0.732 mV.

(5) A single internal band gap reference (Â±5% accuracy) sources both ADCREFP and ADCREFM signals, and hence, these voltages track

together. The ADC converter uses the difference between these two as its reference. The total gain error will be the combination of the

gain error shown here and the voltage reference accuracy (ADCREFP â ADCREFM). A software-based calibration procedure is

recommended for better accuracy. See the F2810, F2811, and F2812 ADC Calibration Application Report (literature number SPRA989)

and Section 5.2, Documentation Support, for relevant documents.

(6) In this mode, the accuracy of external reference is critical for overall gain. The voltage difference (ADCREFP â ADCREFM) will

determine the overall accuracy.

(7) Voltages above VDDA + 0.3 V or below VSS â 0.3 V applied to an analog input pin may temporarily affect the conversion of another pin.

To avoid this, the analog inputs should be kept within these limits.

144 Electrical Specifications

Submit Documentation Feedback

Product Folder Link(s): TMS320F2810 TMS320F2811 TMS320F2812 TMS320C2810 TMS320C2811 TMS320C2812

▷