aduc7033bstz-8l-rl Analog Devices, Inc., aduc7033bstz-8l-rl Datasheet - Page 61

aduc7033bstz-8l-rl

Manufacturer Part Number

aduc7033bstz-8l-rl

Description

Integrated Precision Battery Sensor For Automotive

Manufacturer

Analog Devices, Inc.

Datasheet

1.ADUC7033BSTZ-8L-RL.pdf (136 pages)

Current page: 61 of 136
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A modified version of the 8 kHz filter response can be

configured by setting the running average bit (ADCFLT[14]).

This has the effect of introducing an additional running-average-

by-two filter on all ADC output samples. This further reduces

the ADC output noise and by maintaining an 8 kHz ADC

throughput rate, the ADC settling time is increased by one

full conversion period. The modified frequency response for

this configuration is shown in Figure 24.

At very low throughput rates, the chop bit in the ADCFLT

importantly, temperature drift in the ADC offset error. With

chop enabled, there are two primary variables (Sinc3 decimation

factor and averaging factor) available to allow the user to select

an optimum filter response, trading off filter bandwidth against

ADC noise.

For example, with the Chop Enable Bit ADCFLT[15] set to 1,

increasing the SF value (ADCFLT[6:0]) to 0x1F (31 decimal)

and selecting an AF value (ADCFLT[13:8]) of 0x16

(22 decimal) results in an ADC throughput of 10 Hz. The

frequency response in this case is shown in Figure 25.

Figure 23. Typical Digital Filter Response at f

Figure 24. Typical Digital Filter Response at f

–100

–10

–20

–30

–40

–50

–60

–70

–80

–90

–100

–10

–20

–30

–40

–50

–60

–70

–80

–90

FREQUENCY (kHz)

ADC

= 8 kHz (ADCFLT = 0x0000)

= 8 kHz (ADCFLT = 0x4000)

Rev. 0 | Page 61 of 136

Changing SF to 0x1D and setting AF to 0x3F with the chop bit

enabled configures the ADC into its minimum throughput rate

in normal mode of 4 Hz. The digital filter frequency response

with this configuration is shown in Figure 26.

In ADC low power mode, the ADC, Σ-Δ modulator clock is no

longer driven at 512 kHz, but is driven directly from the

on-chip low power (131 kHz) oscillator. Subsequently, for the

same ADCFLT configurations in normal mode, all filter values

should be scaled by a factor of approximately four. This means

that it is possible to configure the ADC for 1 Hz throughput in

low power mode. The filter frequency response for this

configuration is shown in Figure 27.

Figure 25. Typical Digital Filter Response at f

Figure 26. Typical Digital Filter Response at f

–100

–10

–20

–30

–40

–50

–60

–70

–80

–90

–10

–20

–30

–40

–50

–60

–70

–80

–90

FREQUENCY (Hz)

100

120

ADC

= 10 Hz (ADCFLT = 0x961F)

= 4 Hz (ADCFLT = 0xBF1D)

140

160

ADuC7033

180

200

aduc7033bstz-8l-rl Analog Devices, Inc., aduc7033bstz-8l-rl Datasheet - Page 61

aduc7033bstz-8l-rl

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