DSPIC30F2010-30I/SPG Microchip Technology, DSPIC30F2010-30I/SPG Datasheet - Page 159
DSPIC30F2010-30I/SPG
Manufacturer Part Number
DSPIC30F2010-30I/SPG
Description
16BIT 30MIPS DSPIC, 30F2010, DIP28
Manufacturer
Microchip Technology
Series
DsPIC30Fr
Datasheet
1.DSPIC30F2010-30ISPG.pdf
(244 pages)
Specifications of DSPIC30F2010-30I/SPG
Core Frequency
30MHz
Embedded Interface Type
I2C, SPI, UART
No. Of I/o's
20
Flash Memory Size
12KB
Supply Voltage Range
2.5V To 5.5V
Operating Temperature Range
-40°C To
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
21.3.1.1
The oscillator start-up circuitry is not linked to the POR
circuitry. Some crystal circuits (especially low fre-
quency crystals) will have a relatively long start-up
time. Therefore, one or more of the following conditions
is possible after the POR timer and the PWRT have
expired:
• The oscillator circuit has not begun to oscillate.
• The oscillator start-up timer has NOT expired (if a
• The PLL has not achieved a LOCK (if PLL is
If the FSCM is enabled and one of the above conditions
is true, then a Clock Failure Trap will occur. The device
will automatically switch to the FRC oscillator and the
user can switch to the desired crystal oscillator in the
trap ISR.
21.3.1.2
If the FSCM is disabled and the Power-up Timer
(PWRT) is also disabled, then the device will exit rap-
idly from Reset on power-up. If the clock source is
FRC, LPRC, EXTRC or EC, it will be active
immediately.
If the FSCM is disabled and the system clock has not
started, the device will be in a frozen state at the Reset
vector until the system clock starts. From the user’s
perspective, the device will appear to be in Reset until
a system clock is available.
21.3.2
The BOR (Brown-out Reset) module is based on an
internal voltage reference circuit. The main purpose of
the BOR module is to generate a device Reset when a
brown-out condition occurs. Brown-out conditions are
generally caused by glitches on the AC mains (i.e.,
missing portions of the AC cycle waveform due to bad
power transmission lines or voltage sags due to exces-
sive current draw when a large inductive load is turned
on).
The BOR module allows selection of one of the
following voltage trip points:
• 2.0V
• 2.7V
• 4.2V
• 4.5V
2004 Microchip Technology Inc.
crystal oscillator is used).
used).
Note:
BOR: PROGRAMMABLE
BROWN-OUT RESET
The BOR voltage trip points indicated here
are nominal values provided for design
guidance only.
POR with Long Crystal Start-up Time
(with FSCM Enabled)
Operating without FSCM and PWRT
Advance Information
A BOR will generate a Reset pulse which will reset the
device. The BOR will select the clock source, based on
the device configuration bit values (FOS<1:0> and
FPR<3:0>). Furthermore, if an Oscillator mode is
selected, the BOR will activate the Oscillator Start-up
Timer (OST). The system clock is held until OST
expires. If the PLL is used, then the clock will be held
until the LOCK bit (OSCCON<5>) is “1”.
Concurrently, the POR time-out (T
time-out (T
Reset is released. If T
is being used, then a nominal delay of T
is applied. The total delay in this case is (T
T
The BOR status bit (RCON<1>) will be set to indicate
that a BOR has occurred. The BOR circuit, if enabled,
will continue to operate while in Sleep or Idle modes
and will reset the device should V
threshold voltage.
FIGURE 21-6:
FSCM
Note:
Note 1: External Power-on Reset circuit is
).
2: R should be suitably chosen so as to
3: R1 should be suitably chosen so as to
PWRT
Dedicated supervisory devices, such as
the MCP1XX and MCP8XX, may also be
used as an external Power-on Reset
circuit.
D
required only if the V
is too slow. The diode D helps discharge
the capacitor quickly when V
down.
make sure that the voltage drop across
R does not violate the device’s electrical
specification.
limit any current flowing into MCLR from
external capacitor C, in the event of
MCLR/V
trostatic Discharge (ESD) or Electrical
Overstress (EOS).
V
) will be applied before the internal
DD
R
C
PP
PWRT
EXTERNAL POWER-ON
RESET CIRCUIT (FOR
SLOW V
pin breakdown due to Elec-
R1
= 0 and a crystal oscillator
dsPIC30F
DD
DD
POR
DD
dsPIC30F
DS70082E-page 157
MCLR
POWER-UP)
fall below the BOR
power-up slope
) and the PWRT
FSCM
DD
= 100 µs
powers
POR
+
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