Datasheet
2009 Microchip Technology Inc. DS39897C-page 325
PIC24FJ256GB110 FAMILY
TABLE 29-18: ADC MODULE SPECIFICATIONS
AC CHARACTERISTICS
Standard Operating Conditions: 2.0V to 3.6V
(unless otherwise stated)
Operating temperature -40°C T
A +85°C
Param
No.
Symbol Characteristic Min. Typ Max. Units Conditions
Device Supply
AD01 AV
DD Module VDD Supply Greater of
V
DD – 0.3
or 2.0
—Lesser of
V
DD + 0.3
or 3.6
V
AD02 AV
SS Module VSS Supply VSS – 0.3 — VSS + 0.3 V
Reference Inputs
AD05 VREFH Reference Voltage High AVSS + 1.7 — AVDD V
AD06 V
REFL Reference Voltage Low AVSS —AVDD – 1.7 V
AD07 VREF Absolute Reference
Voltage
AVSS – 0.3 — AVDD + 0.3 V
Analog Input
AD10 V
INH-VINL Full-Scale Input Span VREFL —VREFH V (Note 2)
AD11 VIN Absolute Input Voltage AVSS – 0.3 — AVDD + 0.3 V
AD12 V
INL Absolute VINL Input
Voltage
AVSS – 0.3 AVDD/2 V
AD13 — Leakage Current — ±0.00
1
±0.610 A
V
INL
= AV
SS
= V
REFL
= 0V,
AV
DD
= V
REFH
= 3V,
Source Impedance = 2.5 k
AD17 RIN Recommended Impedance
of Analog Voltage Source
— — 2.5K 10-bit
ADC Accuracy
AD20b Nr Resolution — 10 — bits
AD21b INL Integral Nonlinearity — ±1 <±2 LSb VINL = AVSS = VREFL = 0V,
AV
DD = VREFH = 3V
AD22b DNL Differential Nonlinearity — ±0.5 <±1 LSb VINL = AVSS = VREFL = 0V,
AV
DD = VREFH = 3V
AD23b GERR Gain Error — ±1 ±3 LSb VINL = AVSS = VREFL = 0V,
AV
DD = VREFH = 3V
AD24b E
OFF Offset Error — ±1 ±2 LSb VINL = AVSS = VREFL = 0V,
AV
DD = VREFH = 3V
AD25b — Monotonicity
(1)
— — — — Guaranteed
Note 1: The ADC conversion result never decreases with an increase in the input voltage and has no missing codes.
2: Measurements taken with external VREF+ and VREF- used as the ADC voltage reference.