ATtiny85 Automotive Atmel Corporation, ATtiny85 Automotive Datasheet - Page 110
ATtiny85 Automotive
Manufacturer Part Number
ATtiny85 Automotive
Description
Manufacturer
Atmel Corporation
Datasheets
1.AT90CAN128_AUTOMOTIVE.pdf
(225 pages)
2.ATTINY25_AUTOMOTIVE.pdf
(7 pages)
3.ATTINY25_AUTOMOTIVE.pdf
(196 pages)
Specifications of ATtiny85 Automotive
Flash (kbytes)
8 Kbytes
Pin Count
8
Max. Operating Frequency
16 MHz
Cpu
8-bit AVR
# Of Touch Channels
3
Hardware Qtouch Acquisition
No
Max I/o Pins
6
Ext Interrupts
6
Usb Speed
No
Usb Interface
No
Spi
1
Twi (i2c)
1
Graphic Lcd
No
Video Decoder
No
Camera Interface
No
Adc Channels
4
Adc Resolution (bits)
10
Adc Speed (ksps)
15
Analog Comparators
1
Resistive Touch Screen
No
Temp. Sensor
Yes
Crypto Engine
No
Sram (kbytes)
0.5
Eeprom (bytes)
512
Self Program Memory
YES
Dram Memory
No
Nand Interface
No
Picopower
No
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
No
Mpu / Mmu
no / no
Timers
2
Output Compare Channels
5
Pwm Channels
6
32khz Rtc
No
Calibrated Rc Oscillator
Yes
- AT90CAN128_AUTOMOTIVE PDF datasheet
- ATTINY25_AUTOMOTIVE PDF datasheet #2
- ATTINY25_AUTOMOTIVE PDF datasheet #3
- Current page: 110 of 225
- Download datasheet (4Mb)
14.10 Timer/Counter Timing Diagrams
110
Atmel ATtiny24/44/84 [Preliminary]
When changing the top value, the program must ensure that the new top value is higher or
equal to the value of all of the compare registers. If the top value is lower than any of the com-
pare registers, a compare match will never occur between TCNT1 and OCR1x.
As
mode, symmetrical in all periods. Since the OCR1x registers are updated at bottom, the length
of the rising and the falling slopes will always be equal. This gives symmetrical output pulses,
and is, therefore, frequency correct.
Using the ICR1 register for defining top works well when using fixed top values. By using
ICR1, the OCR1A register is free to be used for generating a PWM output on OC1A. However,
if the base PWM frequency is actively changed by changing the top value, using the OCR1A
as top is clearly a better choice due to its double buffer feature.
In phase and frequency correct PWM mode, the compare units allow generation of PWM
waveforms on the OC1x pins. Setting the COM1x1:0 bits to two will produce a non-inverted
PWM, and an inverted PWM output can be generated by setting the COM1x1:0 to three (see
Table 14-3 on page
direction for the port pin is set as output (DDR_OC1x). The PWM waveform is generated by
setting (or clearing) the OC1x register at the compare match between OCR1x and TCNT1
when the counter increments, and clearing (or setting) the OC1x register at compare match
between OCR1x and TCNT1 when the counter decrements. The PWM frequency for the out-
put when using phase and frequency correct PWM can be calculated by the following
equation:
The variable N represents the prescaler divider (1, 8, 64, 256, or 1024).
The extreme values for the OCR1x register represent special cases when generating a PWM
waveform output in the phase and frequency correct PWM mode. If the OCR1x is set equal to
bottom the output will be continuously low, and if set equal to top, the output will be set to high
for non-inverted PWM mode. For inverted PWM the output will have the opposite logic values.
The timer/counter is a synchronous design, and the timer clock (clkT1) is, therefore, shown as
a clock enable signal in the following figures. The figures include information on when interrupt
flags are set, and when the OCR1x register is updated with the OCR1x buffer value (only for
modes utilizing double buffering).
setting of OCF1x.
f
OCnxPFCPWM
Figure 14-9 on page 109
=
---------------------------------
2
114). The actual OC1x value will only be visible on the port pin if the data
f
clk_I/O
N
TOP
shows, the output generated is, in contrast to the phase correct
Figure 14-10 on page 111
shows a timing diagram for the
7701E–AVR–02/11
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