Datasheet
© 2007-2012 Microchip Technology Inc. DS70283K-page 277
dsPIC33FJ32MC202/204 and dsPIC33FJ16MC304
FIGURE 24-26: ADC CONVERSION (12-BIT MODE) TIMING CHARACTERISTICS
(ASAM = 0, SSRC<2:0> = 000)
TABLE 24-45: ADC CONVERSION (12-BIT MODE) TIMING REQUIREMENTS
AD55
TSAMP
Clear SAMPSet SAMP
AD61
ADCLK
Instruction
SAMP
AD60
DONE
AD1IF
1 2 3 4 5 6 87
1
– Software sets AD1CON. SAMP to start sampling.
2
– Sampling starts after discharge period. T
SAMP is described in
3
– Software clears AD1CON. SAMP to start conversion.
4
– Sampling ends, conversion sequence starts.
5
– Convert bit 11.
9
– One TAD for end of conversion.
AD50
9
6
– Convert bit 10.
7
– Convert bit 1.
8
– Convert bit 0.
Execution
in the “dsPIC33F/PIC24H Family Reference Manual”.
Section 16. “Analog-to-Digital Converter (ADC)” (DS70183)
AC CHARACTERISTICS
Standard Operating Conditions: 3.0V to 3.6V
(unless otherwise stated)
Operating temperature -40°C ≤ TA ≤ +85°C for Industrial
-40°C ≤ TA ≤ +125°C for Extended
Param
No.
Symbol Characteristic Min. Typ Max. Units Conditions
Clock Parameters
AD50 T
AD ADC Clock Period
(2)
117.6 — — ns —
AD51 t
RC ADC Internal RC Oscillator
Period
(2)
— 250 — ns —
Conversion Rate
AD55 t
CONV Conversion Time
(2)
— 14 TAD —ns —
AD56 FCNV Throughput Rate
(2)
——500Ksps —
AD57 T
SAMP Sample Time
(2)
3.0 TAD —— — —
Timing Parameters
AD60 t
PCS
Conversion Start from Sample
Trigger
(2)
2.0 TAD — 3.0 TAD — Auto convert trigger not
selected
AD61 t
PSS Sample Start from Setting
Sample (SAMP) bit
(2)
2.0 TAD — 3.0 TAD ——
AD62 tCSS Conversion Completion to
Sample Start (ASAM = 1)
(2)
— 0.5 TAD —— —
AD63 t
DPU Time to Stabilize Analog Stage
from ADC Off to ADC On
(2)
——20μs—
Note 1: Because the sample caps will eventually lose charge, clock rates below 10 kHz may affect linearity
performance, especially at elevated temperatures.
2: These parameters are characterized but not tested in manufacturing.