SM320F28335-EP_16 Datasheet, PDF(70/167 Page) Texas Instruments

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SM320F28335-EP_16 Datasheet, PDF (70/167 Pages) Texas Instruments – Digital Signal Controller (DSC)

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SM320F28335-EP

SPRS581D â JUNE 2009 â REVISED MAY 2012

www.ti.com

4.7 Analog-to-Digital Converter (ADC) Module

A simplified functional block diagram of the ADC module is shown in Figure 4-8. The ADC module

consists of a 12-bit ADC with a built-in sample-and-hold (S/H) circuit. Functions of the ADC module

include:

â¢ 12-bit ADC core with built-in S/H

â¢ Analog input: 0.0 V to 3.0 V (Voltages above 3.0 V produce full-scale conversion results.)

â¢ Fast conversion rate: Up to 80 ns at 25-MHz ADC clock, 12.5 MSPS

â¢ 16-channel, MUXed inputs

â¢ Autosequencing capability provides up to 16 "autoconversions" in a single session. Each conversion

can be programmed to select any 1 of 16 input channels

â¢ Sequencer can be operated as two independent 8-state sequencers or as one large 16-state

sequencer (i.e., two cascaded 8-state sequencers)

â¢ Sixteen result registers (individually addressable) to store conversion values

â The digital value of the input analog voltage is derived by:

Digital Value + 0,

when input â¤ 0 V

Digital Value + 4096

Input Analog Voltage * ADCLO

when 0 V < input < 3 V

Digital Value + 4095,

when input â¥ 3 V

A. All fractional values are truncated.

â¢ Multiple triggers as sources for the start-of-conversion (SOC) sequence

â S/W - software immediate start

â ePWM start of conversion

â XINT2 ADC start of conversion

â¢ Flexible interrupt control allows interrupt request on every end-of-sequence (EOS) or every other EOS.

â¢ Sequencer can operate in "start/stop" mode, allowing multiple "time-sequenced triggers" to

synchronize conversions.

â¢ SOCA and SOCB triggers can operate independently in dual-sequencer mode.

â¢ Sample-and-hold (S/H) acquisition time window has separate prescale control.

The ADC module in the F28335 has been enhanced to provide flexible interface to ePWM peripherals.

The ADC interface is built around a fast, 12-bit ADC module with a fast conversion rate of up to 80 ns at

25-MHz ADC clock. The ADC module has 16 channels, configurable as two independent 8-channel

modules. The two independent 8-channel modules can be cascaded to form a 16-channel module.

Although there are multiple input channels and two sequencers, there is only one converter in the ADC

module. Figure 4-8 shows the block diagram of the ADC module.

The two 8-channel modules have the capability to autosequence a series of conversions, each module

has the choice of selecting any one of the respective eight channels available through an analog MUX. In

the cascaded mode, the autosequencer functions as a single 16-channel sequencer. On each sequencer,

once the conversion is complete, the selected channel value is stored in its respective RESULT register.

Autosequencing allows the system to convert the same channel multiple times, allowing the user to

perform oversampling algorithms. This gives increased resolution over traditional single-sampled

conversion results.

Peripherals

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