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XC2786X Datasheet, PDF (88/120 Pages) Infineon Technologies AG – 16/32-Bit Single-Chip Microcontroller with 32-Bit Performance
XC2786X
XC2000 Family Derivatives
Electrical Parameters
Sample time and conversion time of the XC2786X’s A/D converters are programmable.
The timing above can be calculated using Table 19.
The limit values for fADCI must not be exceeded when selecting the prescaler value.
Table 19 A/D Converter Computation Table
GLOBCTR.5-0
(DIVA)
000000B
000001B
000010B
:
111110B
111111B
A/D Converter
Analog Clock fADCI
fSYS
fSYS / 2
fSYS / 3
fSYS / (DIVA+1)
fSYS / 63
fSYS / 64
INPCRx.7-0
(STC)
00H
01H
02H
:
FEH
FFH
Sample Time
tS
tADCI × 2
tADCI × 3
tADCI × 4
tADCI × (STC+2)
tADCI × 256
tADCI × 257
Converter Timing Example A:
Assumptions: fSYS
Analog clock
fADCI
Sample time
tS
Conversion 10-bit:
tC10
Conversion 8-bit:
tC8
= 80 MHz (i.e. tSYS = 12.5 ns), DIVA = 03H, STC = 00H
= fSYS / 4 = 20 MHz, i.e. tADCI = 50 ns
= tADCI × 2 = 100 ns
= 13 × tADCI + 2 × tSYS = 13 × 50 ns + 2 × 12.5 ns = 0.675 µs
= 11 × tADCI + 2 × tSYS = 11 × 50 ns + 2 × 12.5 ns = 0.575 µs
Converter Timing Example B:
Assumptions: fSYS
Analog clock
fADCI
Sample time
tS
Conversion 10-bit:
tC10
Conversion 8-bit:
tC8
= 40 MHz (i.e. tSYS = 25 ns), DIVA = 02H, STC = 03H
= fSYS / 3 = 13.3 MHz, i.e. tADCI = 75 ns
= tADCI × 5 = 375 ns
= 16 × tADCI + 2 × tSYS = 16 × 75 ns + 2 × 25 ns = 1.25 µs
= 14 × tADCI + 2 × tSYS = 14 × 75 ns + 2 × 25 ns = 1.10 µs
Data Sheet
86
V2.1, 2008-08