SAM7SE256 Atmel Corporation, SAM7SE256 Datasheet - Page 15

SAM7SE256

Manufacturer Part Number

SAM7SE256

Description

Manufacturer

Atmel Corporation

Datasheets

1.M40800.pdf (284 pages)

2.SAM7SE256.pdf (674 pages)

3.SAM7SE256.pdf (47 pages)

Specifications of SAM7SE256

Flash (kbytes)

256 Kbytes

Pin Count

144

Max. Operating Frequency

48 MHz

Cpu

ARM7TDMI

Hardware Qtouch Acquisition

Max I/o Pins

Ext Interrupts

Usb Transceiver

Usb Speed

Full Speed

Usb Interface

Device

Spi

Twi (i2c)

Uart

Ssc

Graphic Lcd

Video Decoder

Camera Interface

Adc Channels

Adc Resolution (bits)

Adc Speed (ksps)

384

Resistive Touch Screen

Temp. Sensor

Crypto Engine

Sram (kbytes)

Self Program Memory

External Bus Interface

Dram Memory

sdram

Nand Interface

Yes

Picopower

Temp. Range (deg C)

-40 to 85

I/o Supply Class

1.8/3.3

Operating Voltage (vcc)

3.0 to 3.6

Fpu

Mpu / Mmu

Yes / No

Timers

Output Compare Channels

Input Capture Channels

Pwm Channels

32khz Rtc

Yes

Calibrated Rc Oscillator

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6. I/O Lines Considerations

6.1

6.2

6.3

6.4

6222F–ATARM–14-Jan-11

JTAG Port Pins

Test Pin

Reset Pin

ERASE Pin

TMS, TDI and TCK are Schmitt trigger inputs. TMS, TDI and TCK do not integrate a pull-up

resistor.

TDO is an output, driven at up to VDDIO, and has no pull-up resistor.

The JTAGSEL pin is used to select the JTAG boundary scan when asserted at a high level. The

JTAGSEL pin integrates a permanent pull-down resistor of about 15 kΩ.

To eliminate any risk of spuriously entering the JTAG boundary scan mode due to noise on

JTAGSEL, it should be tied externally to GND if boundary scan is not used, or put in place an

external low value resistor (such as 1 kΩ) .

T h e T S T p i n i s u s e d f o r m a n u f a c t u r i n g t e s t o r f a s t p r o g r a m m i n g m o d e o f t h e

SAM7SE512/256/32 when asserted high. The TST pin integrates a permanent pull-down resis-

tor of about 15 kΩ to GND.

To eliminate any risk of entering the test mode due to noise on the TST pin, it should be tied to

GND if the FFPI is not used, or put in place an external low value resistor (such as 1 kΩ) .

To enter fast programming mode, the TST pin and the PA0 and PA1 pins should be tied high

and PA2 tied low.

Driving the TST pin at a high level while PA0 or PA1 is driven at 0 leads to unpredictable results.

The NRST pin is bidirectional with an open-drain output buffer. It is handled by the on-chip reset

controller and can be driven low to provide a reset signal to the external components or asserted

low externally to reset the microcontroller. There is no constraint on the length of the reset pulse,

and the reset controller can guarantee a minimum pulse length. This allows connection of a sim-

ple push-button on the NRST pin as system user reset, and the use of the NRST signal to reset

all the components of the system.

An external power-on reset can drive this pin during the start-up instead of using the internal

power-on reset circuit.

The NRST pin integrates a permanent pull-up of about 100 kΩ resistor to VDDIO.

This pin has Schmitt trigger input.

The ERASE pin is used to re-initialize the Flash content and some of its NVM bits. It integrates a

permanent pull-down resistor of about 15 kΩ to GND.

To eliminate any risk of erasing the Flash due to noise on the ERASE pin, it should be tied exter-

nally to GND, which prevents erasing the Flash from the application, or put in place an external

low value resistor (such as 1 kΩ) .

This pin is debounced by the RC oscillator to improve the glitch tolerance. When the pin is tied to

high during less than 100 ms, ERASE pin is not taken into account. The pin must be tied high

during more than 220 ms to perform the re-initialization of the Flash.

SAM7SE512/256/32

SAM7SE256 Atmel Corporation, SAM7SE256 Datasheet - Page 15

SAM7SE256

Specifications of SAM7SE256

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