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PIC24FJ128GC010 Datasheet, PDF (433/472 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 37-11: INTERNAL VOLTAGE REGULATOR SPECIFICATIONS
Operating Conditions: -40°C < TA < +85°C (unless otherwise stated)
Param
No.
Symbol
Characteristics
DVR10 VBG
DVR11 TBG
DVR20 VRGOUT
DVR21 CEFC
Internal Band Gap Reference
Band Gap Reference Start-up
Time
Regulator Output Voltage
External Filter Capacitor Value
DVR TVREG
DVR30 VLVR
Start-up Time
Low-Voltage Regulator Output
Voltage
Min Typ Max Units
â
1.2 â
V
â
1
â ms
Comments
â
1.8 â
V VDD > 2.0V
4.7 10 â ïF Series Resistance < 3ï
recommended; < 5ï required.
â
10 â ïs PMSLP = 1 with any POR or BOR
â
1.2 â
V RETEN = 1, LPCFG = 0
TABLE 37-12: BAND GAP REFERENCE (BGBUFn) SPECIFICATIONS
Operating Conditions: -40°C < TA < +85°C, 2.0V < (A)VDD < 3.6V(1)
Param
No.
Sym
Characteristics
Min Typ Max Units
Comments
DBG01
DBG02
DBG03
DBG04
DBG05
DBG07
DBG08
DBG09
DBG10
DBG11
DBG12
DBG14
Note 1:
2:
3:
Recommended Output
Capacitance for Optimal
Transient Response
â
â
22
µF BGBUF1 or BGBUF2
Output Voltage
1.140 1.200 1.260
V BUFREF<1:0> = 00,
2.0V < AVDD < 3.6V
1.945 2.048 2.151
V
BUFREF<1:0> = 01(2)
2.432 2.560 2.688
V
BUFREF<1:0> = 10(2)
2.918 3.072 3.226
V
BUFREF<1:0> = 11(2)
DC Output Resistance
20
â
â
⦠BUFREF<1:0> = 00,
2.0V < AVDD ï£ 2.5V
20
â
â
⦠BUFREF<1:0> = 00,
2.5V < AVDD < 3.6V
20
â
â
⦠BUFREF<1:0> = 01, 10 or 11(2)
Maximum Continuous DC
â
â
1
mA This value is not tested in production
Output Current Rating
(Note 3)
Module Start-up Time from
â
5
â
ms Time from BUFEN and
Disabled State
BUFOE = 1 to output stable,
CLOAD = 20 µF
Module Start-up Time from
â
100
â
Standby Mode
µs Time from BUFSTBY = 0 to
output stable
AVDD Active Current
â
100
â
µA Module enabled, BUFOE = 1
No DC loading on module unless otherwise stated.
For BUFREF<1:0> ï¹ 00, (Reference Output Max + 100 mV) < AVDD < 3.6V.
To minimize voltage error, the DC loading on the BGBUF output pins should be <100 µA.
ï£ 2012-2013 Microchip Technology Inc.
DS30009312B-page 433
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