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dsPIC33FJ06GS101/X02 and dsPIC33FJ16GSX02/X04

DS70000318G-page 328  2008-2014 Microchip Technology Inc.

TABLE 24-40: 10-BIT HIGH-SPEED ADC MODULE SPECIFICATIONS

AC CHARACTERISTICS

Standard Operating Conditions (see Note 2): 3.0V and 3.6V

(unless otherwise stated)

Operating temperature -40°C  T

A  +85°C for Industrial

-40°C  T

A  +125°C for Extended

Param

No.

Symbol Characteristic Min. Typ. Max. Units Conditions

Device Supply

AD01 AV

DD Module VDD Supply — — — — AVDD is internally connected to

DD; see Parameter DC10 in

Ta bl e 24 -4

AD02 AV

SS Module VSS Supply — — — — AVSS is internally connected

to V

Analog Input

AD10 VINH-VINL Full-Scale Input Span VSS —VDD V

AD11 V

IN Absolute Input Voltage AVSS —AVDD V

AD12 IAD Operating Current — 8 — mA

AD13 — Leakage Current — ±0.6 — AVINL = AVSS = 0V, AVDD = 3.3V,

Source Impedance = 100

AD17 R

IN Recommended Impedance

Of Analog Voltage Source

— — 100 

DC Accuracy @ 1.5 Msps

AD20A Nr Resolution 10 Data Bits

AD21A INL Integral Nonlinearity -0.5 -0.3/+0.5 +1.2 LSb

AD22A DNL Differential Nonlinearity -0.9 ±0.6 +0.9 LSb

AD23A G

ERR Gain Error 13 15 22 LSb

AD24A EOFF Offset Error 6 7 8 LSb

AD25A — Monotonicity

(1)

— — — — Guaranteed

DC Accuracy @ 1.7 Msps

AD20B Nr Resolution 10 Data Bits

AD21B INL Integral Nonlinearity -0.5 -0.4/+1.1 +1.8 LSb

AD22B DNL Differential Nonlinearity -1.0 ±1.0 +1.5 LSb

AD23B G

ERR Gain Error 13 15 22 LSb

AD24B E

OFF Offset Error 6 7 8 LSb

AD25B — Monotonicity

(1)

— — — — Guaranteed

DC Accuracy @ 2.0 Msps

AD20C Nr Resolution 10 Data Bits

AD21C INL Integral Nonlinearity -0.8 -0.5/+1.8 +2.8 LSb

AD22C DNL Differential Nonlinearity -1.0 -1.0/+1.8 +2.8 LSb

AD23C G

ERR Gain Error 14 16 23 LSb

AD24C E

OFF Offset Error 6 7 8 LSb

AD25C — Monotonicity

(1)

— — — — Guaranteed

Dynamic Performance

AD30 THD Total Harmonic Distortion — -73 — dB

AD31 SINAD Signal to Noise and Distortion — 58 — dB

AD32 SFDR Spurious Free Dynamic Range — -73 — dB

AD33 F

NYQ Input Signal Bandwidth — — 1 MHz

AD34 ENOB Effective Number of Bits — 9.4 — bits

Note 1: The Analog-to-Digital conversion result never decreases with an increase in input voltage, and has no

missing codes.

2: Module is functional at V

BOR < VDD < VDDMIN, but with degraded performance. Module functionality is

tested but not characterized.