Microchip Technology DM164134 Data Sheet
© 2006 Microchip Technology Inc.
DS41159E-page 359
PIC18FXX8
FIGURE 27-23:
A/D CONVERSION TIMING
TABLE 27-24: A/D CONVERSION REQUIREMENTS
131
130
132
BSF ADCON0, GO
Q4
A/D CLK
A/D DATA
ADRES
ADIF
GO
SAMPLE
OLD_DATA
SAMPLING STOPPED
DONE
NEW_DATA
(Note 2)
9
8
7
2
1
0
Note
1:
If the A/D clock source is selected as RC, a time of T
CY
is added before the A/D clock starts. This allows the SLEEP instruction
to be executed.
2:
This is a minimal RC delay (typically 100 ns) which also disconnects the holding capacitor from the analog input.
. . .
. . .
T
CY
Param
No.
Symbol
Characteristic
Min
Max
Units
Conditions
130
T
AD
A/d Clock Period
PIC18FXX8
1.6
20
(5)
μs
T
OSC
based, V
REF
≥ 3.0V
PIC18LFXX8
3.0
20
(5)
μs
T
OSC
based, V
REF
full range
PIC18FXX8
2.0
6.0
μs
A/D RC mode
PIC18LFXX8
3.0
9.0
μs
A/D RC mode
131
T
CNV
Conversion Time
(not including acquisition time) (Note 1)
(not including acquisition time) (Note 1)
11
12
T
AD
132
T
ACQ
Acquisition Time (Note 3)
15
10
10
—
—
—
μs
μs
-40
°C ≤ Temp ≤ +125°C
0
°C ≤ Temp ≤ +125°C
135
T
SWC
Switching Time from Convert
→ Sample
—
(Note 4)
136
T
AMP
Amplifier Settling Time (Note 2)
1
—
μs
This may be used if the
“new” input voltage has not
changed by more than 1 LSb
(i.e., 5 mV @ 5.12V) from the
last sampled voltage (as
stated on C
“new” input voltage has not
changed by more than 1 LSb
(i.e., 5 mV @ 5.12V) from the
last sampled voltage (as
stated on C
HOLD
).
Note 1:
ADRES register may be read on the following T
CY
cycle.
2:
See Section 20.0 “Compatible 10-Bit Analog-to-Digital Converter (A/D) Module” for minimum
conditions when input voltage has changed more than 1 LSb.
conditions when input voltage has changed more than 1 LSb.
3:
The time for the holding capacitor to acquire the “New” input voltage when the voltage changes full scale
after the conversion (AV
after the conversion (AV
DD
to AV
SS
or AV
SS
to AV
DD
). The source impedance (
R
S
) on the input channels
is 50
Ω.
4:
On the next Q4 cycle of the device clock.
5:
The time of the A/D clock period is dependent on the device frequency and the T
AD
clock divider.