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ATMEGA603-6AI

8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64
8位, FLASH, 6 MHz, 精简指令集微控制器, PQFP64

器件类别:嵌入式处理器和控制器    微控制器和处理器   

厂商名称:Atmel (Microchip)

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器件参数
参数名称
属性值
是否Rohs认证
不符合
零件包装代码
QFP
包装说明
TQFP, TQFP64,.63SQ,32
针数
64
Reach Compliance Code
compli
具有ADC
YES
其他特性
4K BYTES SRAM; 2K BYTES EEPROM; ANALOG COMPARATOR; PRESCALER
地址总线宽度
16
位大小
8
CPU系列
AVR RISC
最大时钟频率
6 MHz
DAC 通道
NO
DMA 通道
NO
外部数据总线宽度
8
JESD-30 代码
S-PQFP-G64
JESD-609代码
e0
长度
14 mm
I/O 线路数量
48
端子数量
64
最高工作温度
85 °C
最低工作温度
-40 °C
PWM 通道
YES
封装主体材料
PLASTIC/EPOXY
封装代码
TQFP
封装等效代码
TQFP64,.63SQ,32
封装形状
SQUARE
封装形式
FLATPACK, THIN PROFILE
峰值回流温度(摄氏度)
NOT SPECIFIED
电源
5 V
认证状态
Not Qualified
RAM(字节)
4096
ROM(单词)
32768
ROM可编程性
FLASH
座面最大高度
1.2 mm
速度
6 MHz
最大供电电压
5.5 V
最小供电电压
4 V
标称供电电压
5 V
表面贴装
YES
技术
CMOS
温度等级
INDUSTRIAL
端子面层
Tin/Lead (Sn/Pb)
端子形式
GULL WING
端子节距
0.8 mm
端子位置
QUAD
处于峰值回流温度下的最长时间
NOT SPECIFIED
宽度
14 mm
uPs/uCs/外围集成电路类型
MICROCONTROLLER, RISC
Base Number Matches
1
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Features
Utilizes the AVR
®
Enhanced RISC Architecture
121 Powerful Instructions - Most Single Clock Cycle Execution
128K bytes of In-System Reprogrammable Flash ATmega103/L
64K bytes of In-System Reprogrammable Flash ATmega603/L
– SPI Interface for In-System Programming
– Endurance: 1,000 Write/Erase Cycles
4K bytes EEPROM ATmega103/L
2K bytes of EEPROM ATmega603/L
– Endurance: 100,000 Write/Erase Cycles
4K bytes Internal SRAM
32 x 8 General Purpose Working Registers + Peripheral Control Registers
32 Programmable I/O Lines, 8 Output Lines, 8 Input Lines
Programmable Serial UART + SPI Serial Interface
V
CC
Supply
– 2.7 - 3.6V ATmega603L/ATmega103L
– 4.0 - 5.5V ATmega603/ATmega103
Fully Static Operation
– 0 - 6 MHz ATmega603/ATmega103
– 0 - 4 MHz ATmega603L/ATmega103L
Up to 6 MIPS Throughput at 6 MHz
RTC with Separate Oscillator
Two 8-Bit Timer/Counters with Separate Prescaler and PWM
One 16-Bit Timer/Counter with Separate Prescaler, Compare, Capture Modes and
Dual 8-, 9- or 10-Bit PWM
Programmable Watchdog Timer with On-Chip Oscillator
On-Chip Analog Comparator
8-Channel, 10-Bit ADC
Low Power Idle, Power Save and Power Down Modes
Software Selectable Clock Frequency
Programming Lock for Software Security
8-Bit
Microcontroller
with 64K/128K
Bytes In-System
Programmable
Flash
ATmega603
ATmega603L
ATmega103
ATmega103L
Preliminary
ATmega103/L
ATmega103/L
Pin Configuration
TQFP
Rev. 0945BS–09/98
Note:
This is a summary document. For the complete 92
page document, please visit our web site at
1
www.atmel.com
or e-mail at
literature@atmel.com
and request literature #0945B.
Block Diagram
Figure 1.
The ATmega603/103 Block Diagram
PF0 - PF7
PA0 - PA7
PC0 - PC7
VCC
GND
PORTF BUFFERS
AVCC
DATA REGISTER
PORTA
DATA DIR.
REG. PORTA
DATA REGISTER
PORTC
8-BIT DATA BUS
PORTA DRIVER/BUFFERS
PORTC DRIVERS
ANALOG MUX
ADC
AGND
AREF
INTERNAL
OSCILLATOR
OSCILLATOR
XTAL1
XTAL1
PROGRAM
COUNTER
STACK
POINTER
WATCHDOG
TIMER
TOSC2
OSCILLATOR
PROGRAM
FLASH
SRAM
MCU CONTROL
REGISTER
TIMING AND
CONTROL
TOSC1
INSTRUCTION
REGISTER
GENERAL
PURPOSE
REGISTERS
X
Y
Z
TIMER/
COUNTERS
RESET
ALE
WR
RD
INSTRUCTION
DECODER
INTERRUPT
UNIT
CONTROL
LINES
ALU
EEPROM
STATUS
REGISTER
PROGRAMMING
LOGIC
PEN
SPI
UART
ANALOG
COMPARATOR
DATA REGISTER
PORTE
DATA DIR.
REG. PORTE
DATA REGISTER
PORTB
DATA DIR.
REG. PORTB
DATA REGISTER
PORTD
DATA DIR.
REG. PORTD
+
-
VCC
PORTE DRIVER/BUFFERS
PORTB DRIVER/BUFFERS
PORTD DRIVER/BUFFERS
GND
PE0 - PE7
PB0 - PB7
PD0 - PD7
Description
The ATmega603/103 is a low-power CMOS 8-bit microcon-
troller based on the
AVR
enhanced RISC architecture. By
executing powerful instructions in a single clock cycle, the
ATmega603/103 achieves throughputs approaching 1
MIPS per MHz allowing the system designer to optimize
power consumption versus processing speed.
The AVR core is based on an enhanced RISC architecture
that combines a rich instruction set with 32 general purpose
working registers. All the 32 registers are directly con-
nected to the Arithmetic Logic Unit (ALU), allowing two
independent registers to be accessed in one single instruc-
tion executed in one clock cycle. The resulting architecture
2
is more code efficient while achieving throughputs up to ten
times faster than conventional CISC microcontrollers.
The ATmega603/103 provides the following features:
64K/128K bytes of In-system Programmable Flash, 2K/4K
bytes EEPROM, 4K bytes SRAM, 32 general purpose I/O
lines, 8 Input lines, 8 Output lines, 32 general purpose
working registers, 4 flexible timer/counters with compare
modes and PWM, UART, programmable Watchdog Timer
with internal oscillator, an SPI serial port and three software
selectable power saving modes. The Idle Mode stops the
CPU while allowing the SRAM, timer/counters, SPI port
and interrupt system to continue functioning. The Power
ATmega603(L) and ATmega103(L)
ATmega603(L) and ATmega103(L)
Down mode saves the register contents but freezes the
oscillator, disabling all other chip functions until the next
interrupt or hardware reset. In Power Save mode, the timer
oscillator continues to run, allowing the user to maintain a
timer base while the rest of the device is sleeping.
The device is manufactured using Atmel’s high-density
non-volatile memory technology. The on-chip ISP Flash
allows the program memory to be reprogrammed in-system
through a serial interface or by a conventional nonvolatile
memory programmer. By combining an 8-bit RISC CPU
with a large array of ISP Flash on a monolithic chip, the
Atmel ATmega603/103 is a powerful microcontroller that
provides a highly flexible and cost effective solution to
many embedded control applications.
The ATmega603/103 AVR is supported with a full suite of
program and system development tools including: C com-
pilers, macro assemblers, program debugger/simulators,
in-circuit emulators, and evaluation kits.
Port A serves as Multiplexed Address/Data bus when using
external SRAM.
Port B (PB7..PB0)
Port B is an 8-bit bi-directional I/O pins with internal pull-up
resistors. The Port B output buffers can sink 20 mA. As
inputs, Port B pins that are externally pulled low, will source
current if the pull-up resistors are activated.
Port B also serves the functions of various special features.
Port C (PC7..PC0)
Port C is an 8-bit Output port. The Port C output buffers can
sink 20 mA.
Port C also serves as Address output when using external
SRAM.
Port D (PD7..PD0)
Port D is an 8-bit bi-directional I/O port with internal pull-up
resistors. The Port D output buffers can sink 20 mA. As
inputs, Port D pins that are externally pulled low will source
current if the pull-up resistors are activated.
Port D also serves the functions of various special features.
Port E (PE7..PE0)
Port E is an 8-bit bi-directional I/O port with internal pull-up
resistors. The Port E output buffers can sink 20 mA. As
inputs, Port E pins that are externally pulled low will source
current if the pull-up resistors are activated.
Port E also serves the functions of various special features.
Port F (PF7..PF0)
Port F is an 8-bit Input port. Port F also serves as the ana-
log inputs for the ADC.
RESET
input. A low on this pin for two machine cycles while the
oscillator is running resets the device.
XTAL1
Input to the inverting oscillator amplifier and input to the
internal clock operating circuit.
XTAL2
Output from the inverting oscillator amplifier
TOSC1
Input to the inverting Timer/Counter oscillator amplifier
TOSC2
Output from the inverting Timer/Counter oscillator amplifier
WR
External SRAM Write Strobe.
RD
External SRAM Read Strobe.
ALE
ALE is the Address Latch Enable used when the External
Memory is enabled. The ALE strobe is used to latch the
low-order address (8 bits) into an address latch during the
Comparison Between ATmega 603 and
ATmega 103
The ATmega603 has 64K bytes of In-System Programma-
ble Flash, 2K bytes of EEPROM, and 4K bytes of internal
SRAM. The ATmega603 does not have the ELPM instruc-
tion.
The ATmega103 has 128K bytes of In-System Program-
mable Flash, 4K bytes of EEPROM, and 4K bytes of inter-
nal SRAM. The ATmega103 has the ELPM instruction,
necessary to reach the upper half of the Flash memory for
constant table lookup.
Table 1 summarizes the different memory sizes for the two
devices.
Table 1.
Memory Size Summary
Part
ATmega603
ATmega103
Flash
64K bytes
128K bytes
EEPROM
2K bytes
4K bytes
SRAM
4K bytes
4K bytes
Pin Descriptions
VCC
Supply voltage
GND
Ground
Port A (PA7..PA0)
Port A is an 8-bit bi-directional I/O port. Port pins can pro-
vide internal pull-up resistors (selected for each bit). The
Port A output buffers can sink 20 mA and can drive LED
displays directly. When pins PA0 to PA7 are used as inputs
and are externally pulled low, they will source current if the
internal pull-up resistors are activated.
3
first access cycle, and the AD0-7 pins are used for data
during the second access cycle.
AV
CC
This is the supply voltage to the A/D Converter. It should be
externally connected to V
CC
via a low-pass filter. See
page 53 for details on operation of the ADC.
AREF
This is the analog reference input for the ADC converter.
For ADC operations, a voltage in the range AGND to AVCC
must be applied to this pin.
AGND
If the board has a separate analog ground plane, this pin
should be connected to this ground plane. Otherwise, con-
nect to GND.
PEN
This is a programming enable pin for the low-voltage serial
programming mode. By holding this pin low during a power-
on reset, the device will enter the serial programming
mode.
Figure 3.
External Clock Drive Configuration
NC
XTAL2
EXTERNAL
OSCILLATOR
SIGNAL
XTAL1
GND
ATmega603/103 Architectural Overview
The fast-access register file contains 32 x 8-bit general pur-
pose working registers with a single clock cycle access
time. This means that during one single clock cycle, one
ALU (Arithmetic Logic Unit) operation is executed. Two
operands are output from the register file, the operation is
executed, and the result is stored back in the register file -
in one clock cycle.
Six of the 32 registers can be used as three 16-bit indirect
address register pointers for Data Space addressing -
enabling efficient address calculations. One of the three
address pointers is also used as the address pointer for the
constant table look up function. These added function reg-
isters are the 16-bit X-register, Y-register and Z-register.
The ALU supports arithmetic and logic functions between
registers or between a constant and a register. Single reg-
ister operations are also executed in the ALU. Figure 4
shows the ATmega603/103 AVR Enhanced RISC micro-
controller architecture.
In addition to the register operation, the conventional mem-
ory addressing modes can be used on the register file as
well. This is enabled by the fact that the register file is
assigned the 32 lowermost Data Space addresses, allow-
ing them to be accessed as though they were ordinary
memory locations.
The I/O memory space contains 64 addresses for CPU
peripheral functions as Control Registers, Timer/Counters,
A/D-converters, and other I/O functions. The I/O Memory
can be accessed directly, or as the Data Space locations
following those of the register file, $20 - $5F.
Crystal Oscillator
XTAL1 and XTAL2 are input and output, respectively, of an
inverting amplifier which can be configured for use as an
on-chip oscillator, as shown in Figure 2. Either a quartz
crystal or a ceramic resonator may be used. To drive the
device from an external clock source, XTAL2 should be left
unconnected while XTAL1 is driven as shown in Figure 3.
For the Timer Oscillator pins, OSC1 and OSC2, the crystal
is connected directly between the pins. No external capaci-
tors are needed. The oscillator is optimized for use with a
32,768Hz watch crystal. An external clock signal applied to
this pin goes through the same amplifier having a band-
width of 256kHz. The external clock signal should therefore
be in the interval 0Hz - 256kHz.
Figure 2.
Oscillator Connections
C2
XTAL2
C1
XTAL1
GND
4
ATmega603(L) and ATmega103(L)
ATmega603(L) and ATmega103(L)
Figure 4.
The ATmega603/103 AVR Enhanced RISC Architecture
AVR ATmega603/103 Architecture
Data Bus 8-bit
32K/64K x 16
Program
Memory
Program
Counter
Status
and Test
Instruction
Register
32 x 8
General
Purpose
Registers
Peripherals
Instruction
Decoder
IndirectAddressing
DirectAddressing
ALU
Control Lines
4K x 8
Data
SRAM
2K/4K x 8
EEPROM
The AVR uses a Harvard architecture concept - with sepa-
rate memories and buses for program and data. The pro-
gram memory is executed with a single level pipelining.
While one instruction is being executed, the next instruction
is pre-fetched from the program memory. This concept
enables instructions to be executed in every clock cycle.
The program memory is in-system programmable Flash
memory. With a few exceptions, AVR instructions have a
single 16-bit word format, meaning that every program
memory address contains a single 16-bit instruction.
During interrupts and subroutine calls, the return address
program counter (PC) is stored on the stack. The stack is
effectively allocated in the general data SRAM, and conse-
quently the stack size is only limited by the total SRAM size
and the usage of the SRAM. All user programs must initial-
ize the SP in the reset routine (before subroutines or inter-
rupts are executed). The 16-bit stack pointer SP is
read/write accessible in the I/O space.
The 4000 bytes data SRAM can be easily accessed
through the five different addressing modes supported in
the AVR architecture.
A flexible interrupt module has its control registers in the
I/O space with an additional global interrupt enable bit in
the status register. All the different interrupts have a sepa-
rate interrupt vector in the interrupt vector table at the
beginning of the program memory. The different interrupts
have priority in accordance with their interrupt vector posi-
tion. The lower the interrupt vector address, the higher the
priority.
The memory spaces in the AVR architecture are all linear
and regular memory maps.
The General Purpose Register File
Figure 5 shows the structure of the 32 general purpose
working registers in the CPU.
5
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参数对比
与ATMEGA603-6AI相近的元器件有:ATMEGA603L-4AC、ATMEGA603L-4AI、ATMEGA603L、ATMEGA603、ATMEGA603-6AC、ATMEGA103L-4AI、ATMEGA103L、ATMEGA103-6AI、ATMEGA103。描述及对比如下:
型号 ATMEGA603-6AI ATMEGA603L-4AC ATMEGA603L-4AI ATMEGA603L ATMEGA603 ATMEGA603-6AC ATMEGA103L-4AI ATMEGA103L ATMEGA103-6AI ATMEGA103
描述 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64 8-BIT, FLASH, 6 MHz, RISC MICROCONTROLLER, PQFP64
地址总线宽度 16 16 16 16 16 16 16 16 16 16
外部数据总线宽度 8 8 8 8 8 8 8 8 8 8
端子数量 64 64 64 64 64 64 64 64 64 64
表面贴装 YES YES YES Yes Yes YES YES Yes YES Yes
温度等级 INDUSTRIAL COMMERCIAL INDUSTRIAL INDUSTRIAL INDUSTRIAL COMMERCIAL INDUSTRIAL INDUSTRIAL INDUSTRIAL INDUSTRIAL
端子形式 GULL WING GULL WING GULL WING GULL WING GULL WING GULL WING GULL WING GULL WING GULL WING GULL WING
端子位置 QUAD QUAD QUAD QUAD QUAD QUAD
是否Rohs认证 不符合 不符合 不符合 - - 不符合 不符合 - 不符合 -
零件包装代码 QFP QFP QFP - - QFP QFP - QFP -
包装说明 TQFP, TQFP64,.63SQ,32 TQFP, TQFP64,.63SQ,32 TQFP, TQFP64,.63SQ,32 - - TQFP, TQFP64,.63SQ,32 TQFP, TQFP64,.63SQ,32 - TQFP, TQFP64,.63SQ,32 -
针数 64 64 64 - - 64 64 - 64 -
Reach Compliance Code compli compli compli - - compli unknow - unknow -
具有ADC YES YES YES - - YES YES - YES -
位大小 8 8 8 - - 8 8 - 8 -
CPU系列 AVR RISC AVR RISC AVR RISC - - AVR RISC AVR RISC - AVR RISC -
最大时钟频率 6 MHz 4 MHz 4 MHz - - 6 MHz 4 MHz - 6 MHz -
DAC 通道 NO NO NO - - NO NO - NO -
DMA 通道 NO NO NO - - NO NO - NO -
JESD-30 代码 S-PQFP-G64 S-PQFP-G64 S-PQFP-G64 - - S-PQFP-G64 S-PQFP-G64 - S-PQFP-G64 -
JESD-609代码 e0 e0 e0 - - e0 e0 - e0 -
长度 14 mm 14 mm 14 mm - - 14 mm 14 mm - 14 mm -
I/O 线路数量 48 48 48 - - 48 48 - 48 -
最高工作温度 85 °C 70 °C 85 °C - - 70 °C 85 °C - 85 °C -
PWM 通道 YES YES YES - - YES YES - YES -
封装主体材料 PLASTIC/EPOXY PLASTIC/EPOXY PLASTIC/EPOXY - - PLASTIC/EPOXY PLASTIC/EPOXY - PLASTIC/EPOXY -
封装代码 TQFP TQFP TQFP - - TQFP TQFP - TQFP -
封装等效代码 TQFP64,.63SQ,32 TQFP64,.63SQ,32 TQFP64,.63SQ,32 - - TQFP64,.63SQ,32 TQFP64,.63SQ,32 - TQFP64,.63SQ,32 -
封装形状 SQUARE SQUARE SQUARE - - SQUARE SQUARE - SQUARE -
封装形式 FLATPACK, THIN PROFILE FLATPACK, THIN PROFILE FLATPACK, THIN PROFILE - - FLATPACK, THIN PROFILE FLATPACK, THIN PROFILE - FLATPACK, THIN PROFILE -
峰值回流温度(摄氏度) NOT SPECIFIED NOT SPECIFIED 240 - - NOT SPECIFIED 240 - 240 -
电源 5 V 3/3.3 V 3/3.3 V - - 5 V 3/3.3 V - 5 V -
认证状态 Not Qualified Not Qualified Not Qualified - - Not Qualified Not Qualified - Not Qualified -
RAM(字节) 4096 4096 4096 - - 4096 4096 - 4096 -
ROM(单词) 32768 32768 32768 - - 32768 65536 - 65536 -
ROM可编程性 FLASH FLASH FLASH - - FLASH FLASH - FLASH -
座面最大高度 1.2 mm 1.2 mm 1.2 mm - - 1.2 mm 1.2 mm - 1.2 mm -
速度 6 MHz 4 MHz 4 MHz - - 6 MHz 4 MHz - 6 MHz -
最大供电电压 5.5 V 3.6 V 3.6 V - - 5.5 V 3.6 V - 5.5 V -
最小供电电压 4 V 2.7 V 2.7 V - - 4 V 2.7 V - 4 V -
标称供电电压 5 V 3 V 3 V - - 5 V 3 V - 5 V -
技术 CMOS CMOS CMOS - - CMOS CMOS - CMOS -
端子面层 Tin/Lead (Sn/Pb) Tin/Lead (Sn/Pb) Tin/Lead (Sn/Pb) - - Tin/Lead (Sn/Pb) Tin/Lead (Sn/Pb) - Tin/Lead (Sn/Pb) -
端子节距 0.8 mm 0.8 mm 0.8 mm - - 0.8 mm 0.8 mm - 0.8 mm -
处于峰值回流温度下的最长时间 NOT SPECIFIED NOT SPECIFIED 30 - - NOT SPECIFIED 30 - 30 -
宽度 14 mm 14 mm 14 mm - - 14 mm 14 mm - 14 mm -
uPs/uCs/外围集成电路类型 MICROCONTROLLER, RISC MICROCONTROLLER, RISC MICROCONTROLLER, RISC - - MICROCONTROLLER, RISC MICROCONTROLLER, RISC - MICROCONTROLLER, RISC -
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