AT90CAN32 Automotive Atmel Corporation, AT90CAN32 Automotive Datasheet - Page 29

AT90CAN32 Automotive

Manufacturer Part Number

AT90CAN32 Automotive

Description

Manufacturer

Atmel Corporation

Datasheets

1.AT90CAN128_AUTOMOTIVE.pdf (431 pages)

2.AT90CAN128_AUTOMOTIVE.pdf (16 pages)

3.AT90CAN128_AUTOMOTIVE.pdf (225 pages)

Specifications of AT90CAN32 Automotive

Flash (kbytes)

32 Kbytes

Pin Count

Max. Operating Frequency

16 MHz

Cpu

8-bit AVR

# Of Touch Channels

Hardware Qtouch Acquisition

Max I/o Pins

Ext Interrupts

Usb Speed

Usb Interface

Spi

Twi (i2c)

Uart

Can

Graphic Lcd

Video Decoder

Camera Interface

Adc Channels

Adc Resolution (bits)

Adc Speed (ksps)

Analog Comparators

Resistive Touch Screen

Temp. Sensor

Crypto Engine

Sram (kbytes)

Eeprom (bytes)

1024

Self Program Memory

YES

Dram Memory

Nand Interface

Picopower

Temp. Range (deg C)

-40 to 125

I/o Supply Class

2.7 to 5.5

Operating Voltage (vcc)

2.7 to 5.5

Fpu

Mpu / Mmu

no / no

Timers

Output Compare Channels

Input Capture Channels

Pwm Channels

32khz Rtc

Yes

Calibrated Rc Oscillator

Yes

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4.5.3

4.5.4

4.5.5

7682C–AUTO–04/08

Address Latch Requirements

Pull-up and Bus-keeper

Timing

Due to the high-speed operation of the XRAM interface, the address latch must be selected with

care for system frequencies above 8 MHz @ 4V and 4 MHz @ 2.7V. When operating at condi-

tions above these frequencies, the typical old style 74HC series latch becomes inadequate. The

External Memory Interface is designed in compliance to the 74AHC series latch. However, most

latches can be used as long they comply with the main timing parameters. The main parameters

for the address latch are:

The External Memory Interface is designed to guaranty minimum address hold time after G is

asserted low of t

through Tables 26-14. The D-to-Q propagation delay (t

when calculating the access time requirement of the external component. The data setup time

before G low (t

(dependent on the capacitive load).

Figure 4-5.

The pull-ups on the AD7:0 ports may be activated if the corresponding Port register is written to

one. To reduce power consumption in sleep mode, it is recommended to disable the pull-ups by

writing the Port register to zero before entering sleep.

The XMEM interface also provides a bus-keeper on the AD7:0 lines. The bus-keeper can be dis-

abled and enabled in software as described in

on page

AD7:0 bus when these lines would otherwise be tri-stated by the XMEM interface.

External Memory devices have different timing requirements. To meet these requirements, the

AT90CAN32/64/128 XMEM interface provides four different wait-states as shown in

is important to consider the timing specification of the External Memory device before selecting

the wait-state. The most important parameters are the access time for the external memory

compared to the set-up requirement of the AT90CAN32/64/128. The access time for the Exter-

nal Memory is defined to be the time from receiving the chip select/address until the data of this

• D to Q propagation delay (t

• Data setup time before G low (t

• Data (address) hold time after G low (

33. When enabled, the bus-keeper will ensure a defined logic level (zero or one) on the

External SRAM Connected to the AVR

) must not exceed address valid to ALE low (t

= 5 ns. Refer to t

AVR

AD7:0

A15:8

ALE

LAXX_LD

LLAXX_ST

“External Memory Control Register B – XMCRB”

in “Memory Programming” Tables 26-7

AT90CAN32/64/128

) must be taken into consideration

AVLLC

) minus PCB wiring delay

D[7:0]

A[15:8]

A[7:0]

SRAM

Table

4-4. It

AT90CAN32 Automotive Atmel Corporation, AT90CAN32 Automotive Datasheet - Page 29

AT90CAN32 Automotive

Specifications of AT90CAN32 Automotive

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