ATSAM3X4EA-AU Atmel, ATSAM3X4EA-AU Datasheet - Page 997

ATSAM3X4EA-AU

Manufacturer Part Number

ATSAM3X4EA-AU

Description

ARM Microcontrollers - MCU QFP144,GREEN, IND TEMP, MRL A

Manufacturer

Atmel

Datasheet

1.ATSAM3X8EA-AU.pdf (1467 pages)

Specifications of ATSAM3X4EA-AU

Rohs

yes

Core

ARM Cortex M3

Processor Series

SAM3X

Data Bus Width

32 bit

Maximum Clock Frequency

84 MHz

Program Memory Size

256 KB

Data Ram Size

64 KB

On-chip Adc

Yes

Operating Supply Voltage

2.4 V to 3.6 V

Operating Temperature Range

- 40 C to +85 C

Package / Case

LQFP-144

Mounting Style

SMD/SMT

Factory Pack Quantity

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

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BOSTOCK HK LIMITED

Part Number:

ATSAM3X4EA-AU

Manufacturer:

Atmel

Quantity:

10 000

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39.6.2.6

Figure 39-9. Fault Protection

11057B–ATARM–28-May-12

fault input 0

fault input 1

fault input y

Fault Protection

Glitch

Filter

Glitch

Filter

FFIL0

FFIL1

By using buffer registers PWM_OSSUPD and PWM_OSCUPD, the output selection of PWM

outputs is done synchronously to the channel counter, at the beginning of the next PWM period.

By using registers PWM_OSS and PWM_OSC, the output selection of PWM outputs is done

asynchronously to the channel counter, as soon as the register is written.

The value of the current output selection can be read in PWM_OS.

While overriding PWM outputs, the channel counters continue to run, only the PWM outputs are

forced to user defined values.

6 inputs provide fault protection which can force any of the PWM output pair to a programmable

value. This mechanism has priority over output overriding.

The polarity level of the fault inputs is configured by the FPOL field in the

Counter, to name but a few, the polarity level must be FPOL = 1. For fault inputs coming from

external GPIO pins the polarity level depends on the user's implementation.

The configuration of the Fault Activation Mode (FMOD bit in PWMC_FMR) depends on the

peripheral generating the fault. If the corresponding peripheral does not have “Fault Clear” man-

agement, then the FMOD configuration to use must be FMOD = 1, to avoid spurious fault

detection. Check the corresponding peripheral documentation for details on handling fault

generation.

The fault inputs can be glitch filtered or not in function of the FFIL field in the PWM_FMR regis-

ter. When the filter is activated, glitches on fault inputs with a width inferior to the PWM master

clock (MCK) period are rejected.

A fault becomes active as soon as its corresponding fault input has a transition to the pro-

grammed polarity level. If the corresponding bit FMOD is set to 0 in the PWM_FMR register, the

fault remains active as long as the fault input is at this polarity level. If the corresponding FMOD

bit is set to 1, the fault remains active until the fault input is not at this polarity level anymore and

until it is cleared by writing the corresponding bit FCLR in the

(PWM_FSCR). By reading the

FIV0

FIV1

FPOL0

FPOL1

(PWM_FMR). For fault inputs coming from internal peripherals such as ADC, Timer

FMOD0

FMOD1

Write FCLR0 at 1

Write FCLR1 at 1

SET

CLR

SET

CLR

OUT

“PWM Fault Status Register”

FMOD0

FMOD1

Fault 0 Status

FS0

Fault 1 Status

FS1

FPEx[1]

FPEx[0]

FPE0[1]

FPE0[0]

SYNCx

(PWM_FSR), the user can read the

from fault 0

from fault 1

from fault y

“PWM Fault Clear Register”

From Output

Override

FPVHx

FPVLx

OOHx

OOLx

“PWM Fault Mode

SAM3X/A

Fault protection

channel x

on PWM

PWMHx

PWMLx

997

ATSAM3X4EA-AU Atmel, ATSAM3X4EA-AU Datasheet - Page 997

ATSAM3X4EA-AU

Specifications of ATSAM3X4EA-AU

Available stocks

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