Avr robot controller 1.1 hardware description, Power, I/o pins – SRS Labs SRS Robot Level 1 Kit User Manual

AVR Robot Controller 1.1 Hardware Description

AVR Robot Controller 1.1 Hardware Description

The Level 1 Robot Kit ships with an ATmega16 microcontroller. The Atmel AVR microcontrollers are designed to
be pin- and code-compatible where possible. In this case, for example, you could substitute an ATmega8535 or
ATmega32. These chips will all function in the ARC board with minimal software changes (typically just a re-
compile), the primary difference being the amount of internal memory available. Please see Atmel’s site
(www.atmel.com) for a list and descriptions of available devices.

Power

Power can be any source from 6-24 volts DC. Pay attention to the polarity symbols near the power plug -- ground is
in the center, with +V applied at either end. The ARC board is protected against battery reversal with a diode. This
diode reduces the available power to the board and prevents destruction of the H-Bridge in case of accidental battery
reversal. If you want, you can use a polarized battery connector and solder it directly to the board and replace the
diode with a bare wire.

I/O Pins

The ATmega16 microcontroller has four 8-bit I/O ports and many peripheral functions that work through these I/O
pins. Port A also doubles as the analog input port. Port D doubles for many of the built in functions like serial I/O,
PWM and timers. Port B doubles as the programming interface.

The following table lists the I/O pins that are brought out to headers on the ARC board. (The expansion headers JP3
and JP10 are not included since they bring out all I/O port bits as well as power and ground.) Connection lists what
device or feature the robot communicates with. Physical Pin is the connection to the ATmega16. Functional Name
indicates how each connection is used in the programs. Input/Output describes the communication direction as
viewed from the ATmega16. Header is the text identifying that connection on the board. (See the schematic for pin
details.)

Connection

Physical
Pin

Functional
Name

Input/
Output

Header

Left bump sensor

PA0

PA0

input

LEFT (at front of board)

Right bump sensor

PA7

PA7

input

LEFT (at front of board)

Left distance sensor (Level 2)

PA0

ADC0

input

RIGHT (at front of board)

Right distance sensor (Level 2)

PA7

ADC7

input

RIGHT (at front of board)

Left light sensor

PA1

ADC1

input

LF (“left floor”)

Center light sensor (not included with kit) PA2

ADC2

input

CF (“center floor”)

Right light sensor

PA3

ADC3

input

RF (“right floor”)

Left motor direction

PC3

PC3

output

LEFT (at back of board)

Left motor PWM

PD4

OC1B

output

LEFT (at back of board)

Left motor channel A (encoder, Level 3)

PD3

INT1

input

LEFT (at back of board)

Left motor channel B (encoder, Level 3)

PC2

PC2

input

LEFT (at back of board)

Left servo (not included with kit)

PC2

PC2

output

LEFT (at back of board)

Right motor direction

PC4

PC4

output

RIGHT (at back of board)

Right motor PWM

PD5

OC1A

output

RIGHT (at back of board)

Right motor channel A (encoder, Level 3) PD2

INT0

input

RIGHT (at back of board)

Right motor channel B (encoder, Level 3) PC5

PC5

input

RIGHT (at back of board)

Right servo (not included with kit)

PC5

PC5

output

RIGHT (at back of board)

Serial input

PD0

RXD

input

JP5

Serial output

PD1

TXD

output

JP5

Green “program” LED

PB4

PB4

output

PROG (green LED)

Option A

PB6

PB6

ISP/JP9, A

Option B

PB7

PB7

ISP/JP9, B

Option C

PB4

PB4

ISP/JP9, C

11-3-2005

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