Datasheet
dsPIC33EPXXX(GP/MC/MU)806/810/814 and PIC24EPXXX(GP/GU)810/814
DS70616F-page 556 Preliminary © 2009-2012 Microchip Technology Inc.
TABLE 32-57: ADC CONVERSION (12-BIT MODE) TIMING REQUIREMENTS
AC CHARACTERISTICS
Standard Operating Conditions: 3.0V to 3.6V (see Note 4)
(unless otherwise stated)
Operating temperature -40°C ≤ TA ≤ +85°C for Industrial
-40°C ≤ T
A ≤ +125°C for Extended
Param. Symbol Characteristic Min. Typ. Max. Units Conditions
Clock Parameters
AD50 T
AD ADC Clock Period 117.6 — — ns —
AD51 tRC ADC Internal RC Oscillator
Period
— 250 — ns —
Conversion Rate
AD55 t
CONV Conversion Time — 14 TAD ns —
AD56 F
CNV Throughput Rate — — 500 Ksps —
AD57 T
SAMP Sample Time 3 TAD —— — —
Timing Parameters
AD60 t
PCS
Conversion Start from Sample
Trigger
(2)
2 TAD —3 TAD — Auto convert trigger not
selected
AD61 tPSS Sample Start from Setting
Sample (SAMP) bit
(2)
2 TAD —3 TAD ——
AD62 tCSS Conversion Completion to
Sample Start (ASAM = 1)
(2)
— 0.5 TAD —— —
AD63 tDPU Time to Stabilize Analog Stage
from ADC Off to ADC On
(2)
——20μsSee Note 3
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.
3: The t
DPU parameter is the time required for the ADC module to stabilize at the appropriate level when the
module is turned on (AD1CON1<ADON>=’1’). During this time, the ADC result is indeterminate.
4: Device is functional at V
BORMIN < VDD < VDDMIN. Analog modules: ADC, Comparator, and DAC will have
degraded performance. Device functionality is tested but not characterized. Refer to parameter BO10 in
Table 32-11 for the minimum and maximum BOR values.