PIC32MX460F256LT-80V/BG Microchip Technology, PIC32MX460F256LT-80V/BG Datasheet - Page 130

256 KB Flash, 32 KB RAM, USB-OTG, 80 MHz, 10-Bit ADC, DMA 121 XBGA 10x10x1.20mm

PIC32MX460F256LT-80V/BG

Manufacturer Part Number

PIC32MX460F256LT-80V/BG

Description

256 KB Flash, 32 KB RAM, USB-OTG, 80 MHz, 10-Bit ADC, DMA 121 XBGA 10x10x1.20mm

Manufacturer

Microchip Technology

Series

PIC® 32MXr

Datasheet

1.TDGL001.pdf (214 pages)

Specifications of PIC32MX460F256LT-80V/BG

Processor Series

PIC32MX4xx

Core

MIPS

Data Bus Width

32 bit

Program Memory Type

Flash

Program Memory Size

256 KB

Data Ram Size

32 KB

Interface Type

USB, I2C, UART, RS-232, RS-485, SPI

Maximum Clock Frequency

80 MHz

Number Of Programmable I/os

Number Of Timers

Operating Supply Voltage

2.3 V to 3.6 V

Maximum Operating Temperature

+ 105 C

Mounting Style

SMD/SMT

Package / Case

XBGA-121

Operating Temperature Range

- 40 C to + 105 C

Supply Current (max)

10 mA

Core Processor

MIPS32® M4K™

Core Size

32-Bit

Speed

80MHz

Connectivity

I²C, IrDA, LIN, PMP, SPI, UART/USART, USB OTG

Peripherals

Brown-out Detect/Reset, DMA, POR, PWM, WDT

Number Of I /o

Eeprom Size

Ram Size

32K x 8

Voltage - Supply (vcc/vdd)

2.3 V ~ 3.6 V

Data Converters

A/D 16x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 105°C

Lead Free Status / Rohs Status

Details

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Price

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Part Number:

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PIC32MX3XX/4XX

The processor will exit, or ‘wake-up’, from Sleep on one

of the following events:

• On any interrupt from an enabled source that is

• On any form of device Reset.

• On a WDT time-out. See

If the interrupt priority is lower than or equal to current

priority, the CPU will remain halted, but the PBCLK will

start running and the device will enter into Idle mode.

25.3.2

In the Idle mode, the CPU is halted but the System

clock (SYSCLK) source is still enabled. This allows

peripherals to continue operation when the CPU is

halted. Peripherals can be individually configured to

halt when entering Idle by setting their respective SIDL

bit. Latency when exiting Idle mode is very low due to

the CPU oscillator source remaining active.

The device enters Idle mode when the SLPEN

(OSCCON<4>) bit is clear and a WAIT instruction is

executed.

DS61143H-page 130

operating in Sleep. The interrupt priority must be

greater than the current CPU priority.

Timer

Note:

(WDT)”.

IDLE MODE

Changing

requires recalculation of peripheral timing.

For example, assume the UART is config-

ured for 9600 baud with a PB clock ratio of

1:1 and a P

clock divisor of 1:2 is used, the input fre-

quency to the baud clock is cut in half;

therefore, the baud rate is reduced to 1/2

its former value. Due to numeric truncation

in calculations (such as the baud rate divi-

sor), the actual baud rate may be a tiny

percentage different than expected. For

this

required for a peripheral should be per-

formed with the new PB clock frequency

instead of scaling the previous value

based on a change in PB divisor ratio.

Oscillator start-up and PLL lock delays are

applied when switching to a clock source

that was disabled and that uses a crystal

and/or the PLL. For example, assume the

clock source is switched from P

LPRC just prior to entering Sleep in order to

save power. No oscillator start-up delay

would be applied when exiting Idle. How-

ever, when switching back to P

appropriate

startup/lock delays would be applied.

There is no FRZ mode for this module.

reason,

the

OSC

PLL

Section 26.2 “Watchdog

any

of 8 MHz. When the PB

PBCLK

timing

and/or

divider

calculation

OSC

oscillator

OSC

, the

ratio

The processor will wake or exit from Idle mode on the

following events:

• On any interrupt event for which the interrupt

• On any source of device Reset.

• On a WDT time-out interrupt. See

25.3.3

Most of the peripherals on the device are clocked using

the PBCLK. The peripheral bus can be scaled relative

to the SYSCLK to minimize the dynamic power con-

sumed by the peripherals. The PBCLK divisor is con-

trolled by PBDIV<1:0> (OSCCON<20:19>), allowing

SYSCLK-to-PBCLK ratios of 1:1, 1:2, 1:4 and 1:8. All

peripherals using PBCLK are affected when the divisor

is changed. Peripherals such as USB, Interrupt Con-

troller, DMA, Bus Matrix and Prefetch Cache are

clocked directly from SYSCLK, as a result, they are not

affected by PBCLK divisor changes

Changing the PBCLK divisor affects:

• The CPU to peripheral access latency. The CPU

• The power consumption of the peripherals. Power

To minimize dynamic power the PB divisor should be

chosen to run the peripherals at the lowest frequency

that provides acceptable system performance. When

selecting a PBCLK divider, peripheral clock require-

ments such as baud rate accuracy should be taken into

account. For example, the UART peripheral may not be

able to achieve all baud rate values at some PBCLK

divider depending on the SYSCLK value.

source is enabled. The priority of the interrupt

event must be greater than the current priority of

CPU. If the priority of the interrupt event is lower

than or equal to current priority of CPU, the CPU

will remain halted and the device will remain in

Idle mode.

“Watchdog Timer

has to wait for next PBCLK edge for a read to

complete. In 1:8 mode this results in a latency of

one to seven SYSCLKs.

consumption is directly proportional to the fre-

quency at which the peripherals are clocked. The

greater the divisor, the lower the power consumed

by the peripherals.

PERIPHERAL BUS SCALING

METHOD

(WDT)”.

Section 26.2

PIC32MX460F256LT-80V/BG Microchip Technology, PIC32MX460F256LT-80V/BG Datasheet - Page 130

PIC32MX460F256LT-80V/BG

Specifications of PIC32MX460F256LT-80V/BG

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