PIC24FJ128GC010 Datasheet, PDF(444/472 Page) Microchip Technology – 16-Bit Flash Microcontrollers with 12-Bit Pipeline A/D, Sigma-Delta A/D, USB On-The-Go and XLP Technology

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PIC24FJ128GC010 Datasheet, PDF (444/472 Pages) Microchip Technology – 16-Bit Flash Microcontrollers with 12-Bit Pipeline A/D, Sigma-Delta A/D, USB On-The-Go and XLP Technology

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PIC24FJ128GC010 FAMILY

TABLE 37-29: 12-BIT PIPELINE A/D CONVERSION TIMING REQUIREMENTS(1)

AC CHARACTERISTICS

Standard Operating Conditions: 2.0V to 3.6V (unless otherwise stated)

Operating temperature

-40Â°C ï£ TA ï£ +85Â°C for Industrial

Param

No.

Sym

Characteristic

Min.

Typ

Max.

Units

Conditions

AD50 TAD A/D Clock Period

Clock Parameters

100

â

1000

ns

AD55

AD56

AD57

tCONV

FCNV

tSAMP

Single Conversion Latency

Throughput Rate

Sample Time

Conversion Rate

â

9

â

â

â

10

0.5

â

31

TAD

Msps

TAD

AVDD > 2.7V

Clock Parameters

AD61 tPSS Sample Start Delay from

â

â

1

TAD

Setting Sample bit (SAMP)

Note 1: The 31 TAD value is the maximum set by the SAMCx bits. Long (up to indefinite) sampling times are allowed

on the channel selected by ADTBL0 when the A/D is Idle.

TABLE 37-30: 10-BIT DAC SPECIFICATIONS

AC CHARACTERISTICS

Operating Conditions: -40Â°C < TA < +85Â°C, 2.0V < (A)VDD < 3.6V(1)

Param

No.

Sym

Characteristic

Min

Typ

Max

Units

Comments

DAC01

Resolution

10

â

â

bits

DAC02

DVREF+ Input

Voltage Range

â

â

AVDD

V

DAC03 DNL Differential Linearity

-1

Error

â

+1

LSb

DAC04 INL Integral Linearity Error

-2.5

â

+2.5

LSb

DAC05

Offset Error

-20

â

+20

mV Code 000h

DAC06

Gain Error

-2.5

â

2.5

LSb Code 3FFh, not

including offset error

DAC07

Monotonicity

(Note 2)

â

DAC08

Maximum Output

AVSS + 20

â

AVDD â 20 mV No output load

Voltage Swing

DAC09

Slew Rate

â

3.8

â

V/Âµs

DAC10

Settling Time

â

0.9

â

Âµs Within Â½ LSb of final

value, transition from Â¼

to Â¾ full-scale range

DAC11

Maximum Continuous

â

â

Output Current Rating

(DC or AC RMS)

6

mA This value is not tested in

production

DAC12

AVDD Quiescent

Current

â

700

â

ïA Module enabled,

DAC Reference = AVDD,

no output load

DAC13

DVREF+ Quiescent

â

330

â

ïA Module enabled,

Current

DAC Reference = DVREF+

Note 1: Unless otherwise stated, test conditions are with VDD = AVDD = DVREF+ = 3.3V, 3 kâ¦ load to VSS.

2: DAC output voltage never decreases with an increase in the data code.

DS30009312B-page 444

ï£ 2012-2013 Microchip Technology Inc.

▷