Datasheet AT90S4414, AT90S8515 (Atmel) - 10

HerstellerAtmel
Beschreibung8-bit AVR Microcontroller with 4K/8K bytes In-System Programmable Flash
Seiten / Seite101 / 10 — Program and Data Addressing Modes. Register Direct, Single Register RD. …
Dateiformat / GrößePDF / 2.3 Mb
DokumentenspracheEnglisch

Program and Data Addressing Modes. Register Direct, Single Register RD. Figure 9. AT90S4414/8515

Program and Data Addressing Modes Register Direct, Single Register RD Figure 9 AT90S4414/8515

Modelllinie für dieses Datenblatt

Textversion des Dokuments

link to page 27 The lower 352/608 Data Memory locations address the Register file, the I/O Memory and the internal data SRAM. The first 96 locations address the Register File + I/O Memory, and the next 256/512 locations address the internal data SRAM. An optional external data SRAM can be placed in the same SRAM memory space. This SRAM will occupy the location follow- ing the internal SRAM and up to as much as 64K - 1, depending on SRAM size. When the addresses accessing the data memory space exceeds the internal data SRAM locations, the external data SRAM is accessed using the same instructions as for the internal data SRAM access. When the internal data space is accessed, the read and write strobe pins (RD and WR) are inactive during the whole access cycle. External SRAM opera- tion is enabled by setting the SRE bit in the MCUCR register. See page 27 for details. Accessing external SRAM takes one additional clock cycle per byte compared to access of the internal SRAM. This means that the commands LD, ST, LDS, STS, PUSH and POP take one additional clock cycle. If the stack is placed in external SRAM, interrupts, subroutine calls and returns take two clock cycles extra because the two-byte program counter is pushed and popped. When external SRAM interface is used with wait state, two additional clock cycles is used per byte. This has the following effect: Data transfer instructions take two extra clock cycles, whereas interrupt, subroutine calls and returns will need four clock cycles more than specified in the instruction set manual. The five different addressing modes for the data memory cover: Direct, Indirect with Displacement, Indirect, Indirect with Pre-Decrement and Indirect with Post-Increment. In the register file, registers R26 to R31 feature the indirect addressing pointer registers. The direct addressing reaches the entire data space. The Indirect with Displacement mode features a 63 address locations reach from the base address given by the Y or Z-register. When using register indirect addressing modes with automatic pre-decrement and post-increment, the address registers X, Y and Z are decremented and incremented. The 32 general purpose working registers, 64 I/O registers, the 256/512 bytes of internal data SRAM, and the 64K bytes of optional external data SRAM in the AT90S4414/8515 are all accessible through all these addressing modes. See the next section for a detailed description of the different addressing modes.
Program and Data Addressing Modes
The AT90S4414/8515 AVR RISC microcontroller supports powerful and efficient addressing modes for access to the pro- gram memory (Flash) and data memory (SRAM, Register File and I/O Memory). This section describes the different addressing modes supported by the AVR architecture. In the figures, OP means the operation code part of the instruction word. To simplify, not all figures show the exact location of the addressing bits.
Register Direct, Single Register RD Figure 9.
Direct Single Register Addressing The operand is contained in register d (Rd).
10 AT90S4414/8515
Document Outline Features Description Block Diagram Comparison Between AT90S4414 and AT90S8515 Pin Descriptions VCC GND Port A (PA7..PA0) Port B (PB7..PB0) Port C (PC7..PC0) Port D (PD7..PD0) RESET XTAL1 XTAL2 ICP OC1B ALE Crystal Oscillator Architectural Overview General Purpose Register File X-Register, Y-Register And Z-Register ALU - Arithmetic Logic Unit In-System Programmable Flash Program Memory SRAM Data Memory - Internal and External Program and Data Addressing Modes Register Direct, Single Register RD Register Direct, Two Registers Rd and Rr I/O Direct Data Direct Data Indirect with Displacement Data Indirect Data Indirect with Pre-decrement Data Indirect with Post-increment Constant Addressing Using the LPM Instruction Indirect Program Addressing, IJMP and ICALL Relative Program Addressing, RJMP and RCALL EEPROM Data Memory Memory Access Times and Instruction Execution Timing I/O Memory Status Register - SREG Stack Pointer - SP Reset and Interrupt Handling Reset Sources Power-on Reset External Reset Watchdog Reset Interrupt Handling General Interrupt Mask Register - GIMSK General Interrupt Flag Register - GIFR Timer/counter Interrupt Mask Register - TIMSK Timer/Counter Interrupt Flag Register - TIFR External Interrupts Interrupt Response Time MCU Control Register - MCUCR Sleep Modes Idle Mode Power Down Mode Timer/Counters Timer/Counter Prescaler 8-bit Timer/Counter0 Timer/Counter0 Control Register - TCCR0 Timer Counter 0 - TCNT0 16-bit Timer/Counter1 Timer/Counter1 Control Register A - TCCR1A Timer/Counter1 Control Register B - TCCR1B Timer/Counter1 - TCNT1H AND TCNT1L Timer/Counter1 Output Compare Register - OCR1AH AND OCR1AL Timer/Counter1 Output Compare Register - OCR1BH AND OCR1BL Timer/Counter1 Input Capture Register - ICR1H AND ICR1L Timer/Counter1 In PWM Mode Watchdog Timer Watchdog Timer Control Register - WDTCR EEPROM Read/Write Access EEPROM Address Register - EEARH and EEARL EEPROM Data Register - EEDR EEPROM Control Register - EECR Prevent EEPROM Corruption Serial Peripheral Interface - SPI SS Pin Functionality Data Modes SPI Control Register - SPCR SPI Status Register - SPSR SPI Data Register - SPDR UART Data Transmission Data Reception UART Control UART I/O Data Register - UDR UART Status Register - USR UART Control Register - UCR BAUD Rate Generator UART BAUD Rate Register - UBRR Analog Comparator Analog Comparator Control And Status Register - ACSR Interface to External SRAM I/O-Ports Port A Port A Data Register - PORTA Port A Data Direction Register - DDRA Port A Input Pins Address - PINA Port A as General Digital I/O Port A Schematics Port B Port B Data Register - PORTB Port B Data Direction Register - DDRB Port B Input Pins Address - PINB PortB as General Digital I/O Alternate Functions of PortB Port B Schematics Port C Port C Data Register - PORTC Port C Data Direction Register - DDRC Port C Input Pins Address - PINC PortC as General Digital I/O Port C Schematics Port D Port D Data Register - PORTD Port D Data Direction Register - DDRD Port D Input Pins Address - PIND PortD as General Digital I/O Alternate Functions Of Port D PortD Schematics Memory Programming Program and Data Memory Lock Bits Fuse Bits Signature Bytes Programming the Flash and EEPROM Parallel Programming Signal Names Enter Programming Mode Chip Erase Programming the Flash Reading the Flash Programming the EEPROM Reading the EEPROM Programming the Fuse Bits Programming the Lock Bits Reading the Fuse and Lock Bits Reading the Signature Bytes Parallel Programming Characteristics Serial Downloading Serial Programming Algorithm Data Polling EEPROM Data Polling Flash Serial Programming Characteristics Electrical Characteristics Absolute Maximum Ratings* DC Characteristics External Clock Drive Waveforms External Data Memory Timing Typical Characteristics Instruction Set Summary (Continued) Ordering Information