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PIC24EP256GU810-I Datasheet, PDF (556/622 Pages) Electronic Film Capacitors, Inc. – 16-Bit Microcontrollers and Digital Signal Controllers with High-Speed PWM, USB and Advanced Analog | |||
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dsPIC33EPXXX(GP/MC/MU)806/810/814 and PIC24EPXXX(GP/GU)810/814
TABLE 32-54: ADC MODULE SPECIFICATIONS
AC CHARACTERISTICS
Standard Operating Conditions: 3.0V to 3.6V (see Note 3)
(unless otherwise stated)
Operating temperature -40°C ï£ TA ï£ +85°C for Industrial
-40°C ï£ TA ï£ +125°C for Extended
Param. Symbol
Characteristic
Min. Typ. Max. Units
Conditions
AD01 AVDD(2) Module VDD Supply
Device Supply
Greater of â Lesser of V
VDD â 0.3
VDD + 0.3
or 3.0
or 3.6
AD02 AVSS Module VSS Supply
VSS â 0.3 â VSS + 0.3 V
Reference Inputs
AD05 VREFH Reference Voltage High AVSS + 2.5 â
AVDD
V See Note 1,
VREFH = VREF+,
VREFL = VREF-
AD05a
3.0
â
3.6
V VREFH = AVDD,
VREFL = AVSS = 0
AD06 VREFL Reference Voltage Low
AVSS
â AVDD â 2.5 V See Note 1
AD06a
0
â
0
V VREFH = AVDD,
VREFL = AVSS = 0
AD07 VREF
Absolute Reference
Voltage
2.5
â
3.6
V VREF = VREFH â VREFL
AD08 IREF
Current Drain
â
â
10
ïA ADC off
â
â
600
ïA ADC on
AD09 IAD
Operating Current
â
9.0
â
mA ADC operating in 10-bit
mode, see Note 1
â
3.2
â
mA ADC operating in 12-bit
mode, see Note 1
Analog Input
AD12 VINH
Input Voltage Range, VINH
VINL
â
VREFH
V This voltage reflects Sample
& Hold Channels 0, 1, 2 and 3
(CH0-CH3), positive input
AD13 VINL
Input Voltage Range, VINL VREFL
â AVSS + 1V V This voltage reflects Sample
& Hold Channels 0, 1, 2 and 3
(CH0-CH3), negative input
AD17 RIN
Recommended Impedance
â
of Analog Voltage Source
â
200
ï
Note 1: These parameters are not characterized or tested in manufacturing.
2: The voltage difference between AVDD and VDD cannot exceed 300 mV at any time during operation or start-up.
3: Device is functional at VBORMIN < 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.
DS70616G-page 556
ï£ 2009-2012 Microchip Technology Inc.
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