DSPIC33EP512MU810T-I/PT Microchip Technology, DSPIC33EP512MU810T-I/PT Datasheet - Page 442
DSPIC33EP512MU810T-I/PT
Manufacturer Part Number
DSPIC33EP512MU810T-I/PT
Description
100 PINS, 512KB Flash, 52KB RAM, 60 MHz, USB, 2xCAN, 15 DMA 100 TQFP 12x12x1mm T
Manufacturer
Microchip Technology
Series
dsPIC™ 33EPr
Datasheet
1.DSPIC33EP256MU810-IPF.pdf
(570 pages)
Specifications of DSPIC33EP512MU810T-I/PT
Core Processor
dsPIC
Core Size
16-Bit
Speed
60 MIPs
Connectivity
CAN, I²C, IrDA, LIN, QEI, SPI, UART/USART, USB OTG
Peripherals
Brown-out Detect/Reset, DMA, Motor Control PWM, POR, PWM, WDT
Number Of I /o
83
Program Memory Size
512KB (170K x 24)
Program Memory Type
FLASH
Eeprom Size
-
Ram Size
24K x 16
Voltage - Supply (vcc/vdd)
3 V ~ 3.6 V
Data Converters
A/D 32x10b/12b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 85°C
Package / Case
100-TQFP
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
DSPIC33EP512MU810T-I/PT
Manufacturer:
Microchip Technology
Quantity:
10 000
dsPIC33EPXXXMU806/810/814 and PIC24EPXXXGU810/814
29.4
For
PIC24EPXXXGU810/814 devices, the WDT is driven
by the LPRC Oscillator. When the WDT is enabled, the
clock source is also enabled.
29.4.1
The nominal WDT clock source from LPRC is 32 kHz.
This feeds a prescaler that can be configured for either
5-bit (divide-by-32) or 7-bit (divide-by-128) operation.
The prescaler is set by the WDTPRE Configuration bit.
With a 32 kHz input, the prescaler yields a nominal
WDT time-out period (T
4 ms in 7-bit mode.
A variable postscaler divides down the WDT prescaler
output and allows for a wide range of time-out periods.
The postscaler is controlled by the WDTPOST<3:0>
Configuration bits (FWDT<3:0>), which allow the selec-
tion of 16 settings, from 1:1 to 1:32,768. Using the pres-
caler and postscaler, time-out periods ranging from
1 ms to 131 seconds can be achieved.
The WDT, prescaler and postscaler are reset:
• On any device Reset
• On the completion of a clock switch, whether
• When a PWRSAV instruction is executed
• When the device exits Sleep or Idle mode to
• By a CLRWDT instruction during normal execution
FIGURE 29-2:
DS70616E-page 442
All Device Resets
Transition to New Clock Source
Exit Sleep or Idle Mode
PWRSAV Instruction
CLRWDT Instruction
SWDTEN
FWDTEN
LPRC Clock
invoked by software (i.e., setting the OSWEN bit
after changing the NOSC bits) or by hardware
(i.e., Fail-Safe Clock Monitor)
(i.e., Sleep or Idle mode is entered)
resume normal operation
Note:
Watchdog Timer (WDT)
dsPIC33EPXXXMU806/810/814
PRESCALER/POSTSCALER
The CLRWDT and PWRSAV instructions
clear the prescaler and postscaler counts
when executed.
WINDIS
WDT BLOCK DIAGRAM
WDT
) of 1 ms in 5-bit mode, or
(divide by N1)
WDTPRE
Prescaler
RS
WDT Window Select
and
Preliminary
Watchdog Timer
RS
29.4.2
If the WDT is enabled, it continues to run during Sleep or
Idle modes. When the WDT time-out occurs, the device
wakes the device and code execution continues from
where the PWRSAV instruction was executed. The corre-
sponding SLEEP or IDLE bits (RCON<3,2>) needs to be
cleared in software after the device wakes up.
29.4.3
The WDT is enabled or disabled by the FWDTEN
Configuration bit in the FWDT Configuration register.
When the FWDTEN Configuration bit is set, the WDT is
always enabled.
The WDT can be optionally controlled in software
when the FWDTEN Configuration bit has been
programmed to ‘0’. The WDT is enabled in software
by setting the SWDTEN control bit (RCON<5>). The
SWDTEN control bit is cleared on any device Reset.
The software WDT option allows the user application
to enable the WDT for critical code segments and
disable the WDT during non-critical segments for
maximum power savings.
The WDT flag bit, WDTO (RCON<4>), is not automatically
cleared following a WDT time-out. To detect subsequent
WDT events, the flag must be cleared in software.
WDTPOST<3:0>
(divide by N2)
Note:
Postscaler
CLRWDT Instruction
SLEEP AND IDLE MODES
ENABLING WDT
If the WINDIS bit (FWDT<6>) is cleared,
the CLRWDT instruction should be executed
by the application software only during the
last 1/4 of the WDT period. This CLRWDT
window can be determined by using a timer.
If a CLRWDT instruction is executed before
this window, a WDT Reset occurs.
2009-2011 Microchip Technology Inc.
Sleep/Idle
1
0
WDT
Wake-up
WDT
Reset
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