Datasheet
dsPIC33FJ16(GP/MC)101/102 AND dsPIC33FJ32(GP/MC)101/102/104
DS70652E-page 90 2011-2012 Microchip Technology Inc.
6.2 System Reset
The dsPIC33FJ16(GP/MC)101/102 and
dsPIC33FJ32(GP/MC)101/102/104 family of devices
have two types of Reset:
• Cold Reset
• Warm Reset
A Cold Reset is the result of a POR or a BOR. On a
Cold Reset, the FNOSC Configuration bits in the FOSC
Configuration register selects the device clock source.
A Warm Reset is the result of all other Reset sources,
including the RESET instruction. On Warm Reset, the
device will continue to operate from the current clock
source as indicated by the Current Oscillator Selec-
tion (COSC<2:0>) bits in the Oscillator Control
(OSCCON<14:12>) register.
The device is kept in a Reset state until the system
power supplies have stabilized at appropriate levels
and the oscillator clock is ready. The sequence in
which this occurs is shown in Figure 6-2.
TABLE 6-1: OSCILLATOR DELAY
Oscillator Mode
Oscillator
Start-up Delay
Oscillator Start-up
Timer
PLL Lock Time Total Delay
FRC, FRCDIV16,
FRCDIVN
T
OSCD
(1)
—— TOSCD
FRCPLL TOSCD
(1)
—TLOCK
(3)
TOSCD
(1)
+ TLOCK
(3)
MS TOSCD
(1)
TOST
(2)
—TOSCD
(1)
+ TOST
(2)
HS TOSCD
(1)
TOST
(2)
—TOSCD
(1)
+ TOST
(2)
EC — — — —
MSPLL T
OSCD
(1)
TOST
(2)
TLOCK
(3)
TOSCD
(1)
+ TOST
(2)
+ TLOCK
(3)
ECPLL — — TLOCK
(3)
TLOCK
(3)
SOSC TOSCD
(1)
TOST
(2)
—TOSCD
(1)
+ TOST
(2)
LPRC TOSCD
(1)
—— TOSCD
(1)
Note 1: TOSCD = Oscillator Start-up Delay (1.1 s max. for FRC, 70 s max. for LPRC). Crystal oscillator start-up
times vary with crystal characteristics, load capacitance, etc.
2: T
OST = Oscillator Start-up Timer Delay (1024 oscillator clock period). For example, TOST = 102.4 s for a
10 MHz crystal and TOST = 32 ms for a 32 kHz crystal.
3: T
LOCK = PLL Lock time (1.5 ms nominal) if PLL is enabled.