2545M–AVR–09/07

ATmega48/88/168

Notes: 1. INTRC means that one of the internal RC Oscillators are selected (by the CKSEL fuses),

EXTCK means that external clock is selected (by the CKSEL fuses).

13.3.2 Alternate Functions of Port C

The Port C pins with alternate functions are shown in Table 13-6.

The alternate pin configuration is as follows:

• RESET

/PCINT14 – Port C, Bit 6

Table 13-5. Overriding Signals for Alternate Functions in PB3..PB0

Signal

Name

PB3/MOSI/

OC2/PCINT3

PB2/SS/

OC1B/PCINT2

PB1/OC1A/

PCINT1

PB0/ICP1/

PCINT0

PUOE SPE • MSTR

SPE • MSTR 00

PUOV PORTB3 • PUD

PORTB2 • PUD 00

DDOE SPE • MSTR

SPE • MSTR 00

DDOV 0 0 0 0

PVOE

SPE • MSTR +

OC2A ENABLE

OC1B ENABLE OC1A ENABLE 0

PVOV

SPI MSTR OUTPUT

+ OC2A

OC1B OC1A 0

DIEOE PCINT3 • PCIE0 PCINT2 • PCIE0 PCINT1 • PCIE0 PCINT0 • PCIE0

DIEOV1111

PCINT3 INPUT

SPI SLAVE INPUT

PCINT2 INPUT

SPI SS

PCINT1 INPUT

PCINT0 INPUT

ICP1 INPUT

AIO––––

Table 13-6. Port C Pins Alternate Functions

Port Pin Alternate Function

PC6

RESET

(Reset pin)

PCINT14 (Pin Change Interrupt 14)

PC5

ADC5 (ADC Input Channel 5)

SCL (2-wire Serial Bus Clock Line)

PCINT13 (Pin Change Interrupt 13)

PC4

ADC4 (ADC Input Channel 4)

SDA (2-wire Serial Bus Data Input/Output Line)

PCINT12 (Pin Change Interrupt 12)

PC3

ADC3 (ADC Input Channel 3)

PCINT11 (Pin Change Interrupt 11)

PC2

ADC2 (ADC Input Channel 2)

PCINT10 (Pin Change Interrupt 10)

PC1

ADC1 (ADC Input Channel 1)

PCINT9 (Pin Change Interrupt 9)

PC0

ADC0 (ADC Input Channel 0)

PCINT8 (Pin Change Interrupt 8)

2545M–AVR–09/07

ATmega48/88/168

RESET, Reset pin: When the RSTDISBL Fuse is programmed, this pin functions as a normal I/O

pin, and the part will have to rely on Power-on Reset and Brown-out Reset as its reset sources.

When the RSTDISBL Fuse is unprogrammed, the reset circuitry is connected to the pin, and the

pin can not be used as an I/O pin.

If PC6 is used as a reset pin, DDC6, PORTC6 and PINC6 will all read 0.

PCINT14: Pin Change Interrupt source 14. The PC6 pin can serve as an external interrupt

source.

• SCL/ADC5/PCINT13 – Port C, Bit 5

SCL, 2-wire Serial Interface Clock: When the TWEN bit in TWCR is set (one) to enable the 2-

wire Serial Interface, pin PC5 is disconnected from the port and becomes the Serial Clock I/O

pin for the 2-wire Serial Interface. In this mode, there is a spike filter on the pin to suppress

spikes shorter than 50 ns on the input signal, and the pin is driven by an open drain driver with

slew-rate limitation.

PC5 can also be used as ADC input Channel 5. Note that ADC input channel 5 uses digital

power.

PCINT13: Pin Change Interrupt source 13. The PC5 pin can serve as an external interrupt

source.

• SDA/ADC4/PCINT12 – Port C, Bit 4

SDA, 2-wire Serial Interface Data: When the TWEN bit in TWCR is set (one) to enable the 2-wire

Serial Interface, pin PC4 is disconnected from the port and becomes the Serial Data I/O pin for

the 2-wire Serial Interface. In this mode, there is a spike filter on the pin to suppress spikes

shorter than 50 ns on the input signal, and the pin is driven by an open drain driver with slew-

rate limitation.

PC4 can also be used as ADC input Channel 4. Note that ADC input channel 4 uses digital

power.

PCINT12: Pin Change Interrupt source 12. The PC4 pin can serve as an external interrupt

source.

• ADC3/PCINT11 – Port C, Bit 3

PC3 can also be used as ADC input Channel 3. Note that ADC input channel 3 uses analog

power.

PCINT11: Pin Change Interrupt source 11. The PC3 pin can serve as an external interrupt

source.

• ADC2/PCINT10 – Port C, Bit 2

PC2 can also be used as ADC input Channel 2. Note that ADC input channel 2 uses analog

power.

PCINT10: Pin Change Interrupt source 10. The PC2 pin can serve as an external interrupt

source.

• ADC1/PCINT9 – Port C, Bit 1

PC1 can also be used as ADC input Channel 1. Note that ADC input channel 1 uses analog

power.

2545M–AVR–09/07

ATmega48/88/168

PCINT9: Pin Change Interrupt source 9. The PC1 pin can serve as an external interrupt source.

• ADC0/PCINT8 – Port C, Bit 0

PC0 can also be used as ADC input Channel 0. Note that ADC input channel 0 uses analog

power.

PCINT8: Pin Change Interrupt source 8. The PC0 pin can serve as an external interrupt source.

Table 13-7 and Table 13-8 relate the alternate functions of Port C to the overriding signals

shown in Figure 13-5 on page 77.

Note: 1. When enabled, the 2-wire Serial Interface enables slew-rate controls on the output pins PC4

and PC5. This is not shown in the figure. In addition, spike filters are connected between the

AIO outputs shown in the port figure and the digital logic of the TWI module.

Table 13-7. Overriding Signals for Alternate Functions in PC6..PC4

(1)

Signal

Name PC6/RESET

/PCINT14 PC5/SCL/ADC5/PCINT13 PC4/SDA/ADC4/PCINT12

PUOE RSTDISBL TWEN TWEN

PUOV 1 PORTC5 • PUD

PORTC4 • PUD

DDOE RSTDISBL TWEN TWEN

DDOV 0 SCL_OUT SDA_OUT

PVOE 0 TWEN TWEN

PVOV 0 0 0

DIEOE

RSTDISBL + PCINT14 •

PCIE1

PCINT13 • PCIE1 + ADC5D PCINT12 • PCIE1 + ADC4D

DIEOV RSTDISBL PCINT13 • PCIE1 PCINT12 • PCIE1

DI PCINT14 INPUT PCINT13 INPUT PCINT12 INPUT

AIO RESET INPUT ADC5 INPUT / SCL INPUT ADC4 INPUT / SDA INPUT

Table 13-8. Overriding Signals for Alternate Functions in PC3..PC0

Signal

Name

PC3/ADC3/

PCINT11

PC2/ADC2/

PCINT10

PC1/ADC1/

PCINT9

PC0/ADC0/

PCINT8

PUOE0000

PUOV0000

DDOE 0 0 0 0

DDOV 0 0 0 0

PVOE0000

PVOV0000

DIEOE

PCINT11 • PCIE1 +

ADC3D

PCINT10 • PCIE1 +

ADC2D

PCINT9 • PCIE1 +

ADC1D

PCINT8 • PCIE1 +

ADC0D

DIEOV PCINT11 • PCIE1 PCINT10 • PCIE1 PCINT9 • PCIE1 PCINT8 • PCIE1

DI PCINT11 INPUT PCINT10 INPUT PCINT9 INPUT PCINT8 INPUT

AIO ADC3 INPUT ADC2 INPUT ADC1 INPUT ADC0 INPUT

Part #	ATMEGA48-20AU
Description	MCU 8BIT ATMEGA RISC 4KB FLASH 3.3V/5V 32TQFP - Trays
Category	IC
Availability	Out of Stock
Qty	0

ATMEGA48-20AU

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