Datasheet
PIC24FJ64GA104 FAMILY
DS39951C-page 272 2010 Microchip Technology Inc.
TABLE 28-7: DC CHARACTERISTICS: POWER-DOWN PERIPHERAL
MODULE CURRENT (I
PD)
DC CHARACTERISTICS
Standard Operating Conditions: 2.0V to 3.6V (unless otherwise stated)
Operating temperature -40°C TA +85°C for Industrial
-40°C T
A +125°C for Extended
Parameter
No.
Typical
(1)
Max Units Conditions
Power-Down Current (I
PD): PMD Bits are Set, PMSLP Bit is ‘0’
(2)
DC61 0.2 0.7 A-40°C
2.0V
(3)
31 kHz LPRC Oscillator with
RTCC, WDT, DSWDT or
Timer 1: ILPRC
(5)
DC61a 0.2 0.7 A+25°C
DC61i 0.2 0.7 A+60°C
DC61b 0.23 0.7 A+85°C
DC61m 0.3 1.0 A +125°C
DC61c 0.25 0.9 A-40°C
2.5V
(3)
DC61d 0.25 0.9 A+25°C
DC61j 0.25 0.9 A+60°C
DC61e 0.28 0.9 A+85°C
DC61p 0.5 1.2 A +125°C
DC61f 0.6 1.5 A-40°C
3.3V
(4)
DC61g 0.6 1.5 A+25°C
DC61k 0.6 1.5 A+60°C
DC61h 0.8 1.5 A+85°C
DC61n 1.0 1.7 A +125°C
DC62 0.5 1.0 A-40°C
2.0V
(3)
Low drive strength, 32 kHz Crystal
with RTCC, DSWDT or
Timer1: I
SOSC;
SOSCSEL = 01
DC62a 0.5 1.0 A+25°C
DC62i 0.5 1.0 A+60°C
DC62b 0.5 1.3 A+85°C
DC62m 0.6 1.6 A +125°C
DC62c 0.7 1.5 A-40°C
2.5V
(3)
DC62d 0.7 1.5 A+25°C
DC62j 0.7 1.5 A+60°C
DC62e 0.7 1.8 A+85°C
DC62n 0.8 2.1 A +125°C
DC62f 1.5 2.0 A-40°C
3.3V
(4)
DC62g 1.5 2.0 A+25°C
DC62k 1.5 2.0 A+60°C
DC62h 1.5 2.5 A+85°C
DC62p 1.9 3.0 A +125°C
Note 1: Data in the Typical column is at 3.3V, 25°C unless otherwise stated. Parameters are for design guidance
only and are not tested.
2: Peripheral IPD deltas are measured with the device in Sleep mode (all peripherals and clocks shut down).
All I/Os are configured as inputs and pulled high. Only the peripheral or clock being measured is enabled.
PMSLP bit is clear and the Peripheral Module Disable bits (PMD) for all unused peripherals are set.
3: On-chip voltage regulator is disabled (DISVREG is tied to V
DD).
4: On-chip voltage regulator is enabled (DISVREG is tied to VSS). Low-Voltage Detect (LVD) and Brown-out
Detect (BOD) are enabled.
5: The current is the additional current consumed when the module is enabled. This current should be
added to the base I
PD current.