ATmega16M1 Atmel Corporation, ATmega16M1 Datasheet - Page 167

ATmega16M1

Manufacturer Part Number

ATmega16M1

Description

Manufacturer

Atmel Corporation

Datasheets

1.ATMEGA16M1.pdf (341 pages)

2.ATMEGA16M1.pdf (22 pages)

Specifications of ATmega16M1

Flash (kbytes)

16 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

Uart

Can

Lin

Graphic Lcd

Video Decoder

Camera Interface

Adc Channels

Adc Resolution (bits)

Adc Speed (ksps)

125

Analog Comparators

Resistive Touch Screen

Dac Channels

Dac Resolution (bits)

Temp. Sensor

Yes

Crypto Engine

Sram (kbytes)

Eeprom (bytes)

512

Self Program Memory

YES

Dram Memory

Nand Interface

Picopower

Temp. Range (deg C)

-40 to 85

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

Calibrated Rc Oscillator

Yes

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Current page: 167 of 341
Download datasheet (6Mb)

19.3.3.8

19.3.3.9

19.3.3.10

19.3.3.11

19.3.3.12

19.3.4

8209D–AVR–11/10

Arbitration

Bit Lengthening

Bit Shortening

Synchronization Jump Width

Programming the Sample Point

Synchronization

As a result of resynchronization, Phase Segment 1 may be lengthened or Phase Segment 2

may be shortened to compensate for oscillator tolerances. If, for example, the transmitter oscilla-

tor is slower than the receiver oscillator, the next falling edge used for resynchronization may be

delayed. So Phase Segment 1 is lengthened in order to adjust the sample point and the end of

the bit time.

If, on the other hand, the transmitter oscillator is faster than the receiver one, the next falling

edge used for resynchronization may be too early. So Phase Segment 2 in bit N is shortened in

order to adjust the sample point for bit N+1 and the end of the bit time.

The limit to the amount of lengthening or shortening of the Phase Segments is set by the Resyn-

chronization Jump Width.

This segment may not be longer than Phase Segment 2.

Programming of the sample point allows "tuning" of the characteristics to suit the bus.

Early sampling allows more Time Quanta in the Phase Segment 2 so the Synchronization Jump

Width can be programmed to its maximum. This maximum capacity to shorten or lengthen the

bit time decreases the sensitivity to node oscillator tolerances, so that lower cost oscillators such

as ceramic resonators may be used.

Late sampling allows more Time Quanta in the Propagation Time Segment which allows a

poorer bus topology and maximum bus length.

Hard synchronization occurs on the recessive-to-dominant transition of the start bit. The bit time

is restarted from that edge.

Re-synchronization occurs when a recessive-to-dominant edge doesn't occur within the Syn-

chronization Segment in a message.

The CAN protocol handles bus accesses according to the concept called “Carrier Sense Multiple

Access with Arbitration on Message Priority”.

During transmission, arbitration on the CAN bus can be lost to a competing device with a higher

priority CAN Identifier. This arbitration concept avoids collisions of messages whose transmis-

sion was started by more than one node simultaneously and makes sure the most important

message is sent first without time loss.

The bus access conflict is resolved during the arbitration field mostly over the identifier value. If a

data frame and a remote frame with the same identifier are initiated at the same time, the data

frame prevails over the remote frame (c.f. RTR bit).

ATmega16M1/32M1/64M1

167

ATmega16M1 Atmel Corporation, ATmega16M1 Datasheet - Page 167

ATmega16M1

Specifications of ATmega16M1

Available stocks

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