LM3S5R36_13 Datasheet, PDF(536/1063 Page) Texas Instruments – LM3S5R36 Microcontroller

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LM3S5R36_13 Datasheet, PDF (536/1063 Pages) Texas Instruments – LM3S5R36 Microcontroller

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NRND: Not recommended for new designs.

Analog-to-Digital Converter (ADC)

position (the PHASE field in the ADCSPC register is 0x0). ADC module 1 can be configured to sample

at 180 (PHASE = 0x8). The two modules can be be synchronized using the GSYNC and SYNCWAIT

bits in the ADC Processor Sample Sequence Initiate (ADCPSSI) register. Software could then

combine the results from the two modules to create a sample rate of two million samples/second

at 16 MHz as shown in Figure 12-4 on page 536.

Figure 12-4. Doubling the ADC Sample Rate

ADC Sample Clock

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

GSYNC

ADC 0 PHASE 0x0 (0.0Â°)

ADC 1 PHASE 0x8 (180.0Â°)

Using the ADCSPC register, ADC0 and ADC1 may provide a number of interesting applications:

â Coincident sampling of different signals. The sample sequence steps run coincidently in both

converters.

â ADC Module 0, ADCSPC = 0x0, sampling AIN0

â ADC Module 1, ADCSPC = 0x0, sampling AIN1

â Skewed sampling of the same signal. The sample sequence steps are 1/2 of an ADC clock (500

Âµs for a 1Ms/s ADC) out of phase with each other. This configuration doubles the conversion

bandwidth of a single input when software combines the results as shown in Figure

12-5 on page 536.

â ADC Module 0, ADCSPC = 0x0, sampling AIN0

â ADC Module 1, ADCSPC = 0x8, sampling AIN0

Figure 12-5. Skewed Sampling

ADC0 S1 S2 S3 S4 S5 S6 S7 S8

ADC1

S1 S2 S3 S4 S5 S6 S7 S8

536

Texas Instruments-Production Data

October 06, 2012

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