S912XEG384J3VA Datasheet, PDF(1219/1324 Page) Freescale Semiconductor, Inc – MC9S12XEP100 Reference Manual Covers MC9S12XE Family

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S912XEG384J3VA Datasheet, PDF (1219/1324 Pages) Freescale Semiconductor, Inc – MC9S12XEP100 Reference Manual Covers MC9S12XE Family

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Appendix A Electrical Characteristics

A.2 ATD Characteristics

This section describes the characteristics of the analog-to-digital converter.

A.2.1 ATD Operating Characteristics

The Table A-15 and Table A-16 show conditions under which the ATD operates.

The following constraints exist to obtain full-scale, full range results:

VSSA â¤ VRL â¤ VIN â¤ VRH â¤ VDDA.

This constraint exists since the sample buffer ampliï¬er can not drive beyond the power supply levels that

it ties to. If the input level goes outside of this range it will effectively be clipped.

Table A-15. ATD Operating Characteristics

Conditions are shown in Table A-4 unless otherwise noted, supply voltage 3.13V < VDDA < 5.5 V

Num C

Rating

Symbol

Min

Typ

Max

Unit

1 D Reference potential

Low

High

VRL

VSSA

â

VDDA/2

V

VRH

VDDA/2

â

VDDA

V

2 D Voltage difference VDDX to VDDA

âVDDX

â2.35

0

0.1

V

3 D Voltage difference VSSX to VSSA

âVSSX

â0.1

0

0.1

V

4 C Differential reference voltage

VRH-VRL

3.13

5.0

5.5

V

5 C ATD Clock Frequency (derived from bus clock via the

0.25

â

prescaler)

fATDCLk

8.3

MHz

6

P ATD Clock Frequency in Stop mode (internal generated

temperature and voltage dependent clock, ICLK)

0.6

1

1.7

MHz

7 D ADC conversion in stop, recovery time(1)

tATDSTPRC

â

V

â

1.5

us

ATD Conversion Period(2)

12 bit resolution:

8 D 10 bit resolution:

8 bit resolution:

NCONV12

20

â

42

ATD

NCONV10

19

â

41 clock

NCONV8

17

â

39 Cycles

1. When converting in Stop Mode (ICLKSTP=1) an ATD Stop Recovery time tATDSTPRCV is required to switch back to bus clock

based ATDCLK when leaving Stop Mode. Do not access ATD registers during this time.

2. The minimum time assumes a sample time of 4 ATD clock cycles. The maximum time assumes a sample time of 24 ATD clock

cycles and the discharge feature (SMP_DIS) enabled, which adds 2 ATD clock cycles.

A.2.2 Factors Inï¬uencing Accuracy

Source resistance, source capacitance and current injection have an inï¬uence on the accuracy of the ATD.

A further factor is that PortAD pins that are conï¬gured as output drivers switching.

A.2.2.1 Differential Reference Voltage

The accuracy is reduced if the differential reference voltage is less than 3.13V when using the ATD in the

3.3V range or if the differential reference voltage is less than 4.5V when using the ATD in the 5V range.

Freescale Semiconductor

MC9S12XE-Family Reference Manual Rev. 1.25

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