Calculator User Manual

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Table Of Contents

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Contents
Figures
Tables
Examples
Cautions
Introduction
- TMS320 Family
  - History, Development, and Advantages of TMS320 DSPs
  - Typical Applications for the TMS320 Family
- TMS320C2xx Generation
- Key Features of the TMS320C2xx
Architectural Overview
- ’C2xx Bus Structure
- Central Processing Unit
- Memory and I/O Spaces
- Program Control
- On-Chip Peripherals
- Scanning-Logic Circuitry
Central Processing Unit
- Input Scaling Section
- Multiplication Section
  - Multiplier
  - Product-Scaling Shifter
- Central Arithmetic Logic Section
- Auxiliary Register Arithmetic Unit (ARAU)
  - ARAU and Auxiliary Register Functions
- Status Registers ST0 and ST1
Memory and I/O Spaces
- Overview of the Memory and I/O Spaces
  - Pins for Interfacing to External Memory and I/O Spaces
- Program Memory
  - Interfacing With External Program Memory
- Local Data Memory
  - Data Page 0 Address Map
  - Interfacing With External Local Data Memory
- Global Data Memory
  - Interfacing With External Global Data Memory
- Boot Loader
- I/O Space
  - Accessing I/O Space
- Direct Memory Access Using the HOLD Operation
  - HOLD During Reset
- Device-Specific Information
  - TMS320C203 Address Maps and Memory Configuration
  - TMS320C204 Address Maps and Memory Configuration
Program Control
- Program-Address Generation
- Pipeline Operation
- Branches, Calls, and Returns
- Conditional Branches, Calls, and Returns
- Repeating a Single Instruction
- Interrupts
- Reset Operation
- Power-Down Mode
  - Normal Termination of Power-Down Mode
  - Termination of Power-Down During a HOLD Operation
Addressing Modes
- Immediate Addressing Mode
  - Examples of Immediate Addressing
- Direct Addressing Mode
  - Using Direct Addressing Mode
  - Examples of Direct Addressing
- Indirect Addressing Mode
Assembly Language Instructions
- Instruction Set Summary
- How To Use the Instruction Descriptions
- Instruction Descriptions
  - ABS
  - ABS
  - ADD
  - ADD
  - ADD
  - ADD
  - ADDC
  - ADDC
  - ADDS
  - ADDS
  - ADDT
  - ADDT
  - ADRK
  - AND
  - AND
  - AND
  - APAC
  - APAC
  - B
  - BACC
  - BANZ
  - BANZ
  - BCND
  - BCND
  - BIT
  - BIT
  - BITT
  - BITT
  - BLDD
  - BLDD
  - BLDD
  - BLDD
  - BLDD
  - BLPD
  - BLPD
  - BLPD
  - BLPD
  - CALA
  - CALL
  - CC
  - CC
  - CLRC
  - CLRC
  - CMPL
  - CMPR
  - DMOV
  - DMOV
  - IDLE
  - IN
  - IN
  - INTR
  - LACC
  - LACC
  - LACC
  - LACL
  - LACL
  - LACL
  - LACT
  - LACT
  - LAR
  - LAR
  - LAR
  - LDP
  - LDP
  - LPH
  - LPH
  - LST
  - LST
  - LST
  - LST
  - LT
  - LT
  - LTA
  - LTA
  - LTD
  - LTD
  - LTD
  - LTP
  - LTP
  - LTS
  - LTS
  - MAC
  - MAC
  - MAC
  - MAC
  - MACD
  - MACD
  - MACD
  - MACD
  - MACD
  - MAR
  - MAR
  - MPY
  - MPY
  - MPY
  - MPYA
  - MPYA
  - MPYS
  - MPYS
  - MPYU
  - MPYU
  - NEG
  - NEG
  - NMI
  - NOP
  - NORM
  - NORM
  - NORM
  - OR
  - OR
  - OR
  - OUT
  - OUT
  - PAC
  - POP
  - POP
  - POPD
  - POPD
  - PSHD
  - PSHD
  - PUSH
  - RET
  - RETC
  - ROL
  - ROR
  - RPT
  - RPT
  - SACH
  - SACH
  - SACL
  - SACL
  - SAR
  - SAR
  - SBRK
  - SETC
  - SETC
  - SFL
  - SFR
  - SFR
  - SPAC
  - SPH
  - SPH
  - SPL
  - SPL
  - SPLK
  - SPLK
  - SPM
  - SQRA
  - SQRA
  - SQRS
  - SQRS
  - SST
  - SST
  - SUB
  - SUB
  - SUB
  - SUB
  - SUBB
  - SUBB
  - SUBC
  - SUBC
  - SUBS
  - SUBS
  - SUBT
  - SUBT
  - TBLR
  - TBLR
  - TBLR
  - TBLW
  - TBLW
  - TBLW
  - TRAP
  - XOR
  - XOR
  - XOR
  - ZALR
  - ZALR
On-Chip Peripherals
- Control of On-Chip Peripherals
- Clock Generator
  - Clock Generator Options
- CLKOUT1-Pin Control (CLK) Register
- Timer
- Wait-State Generator
  - Generating Wait States With the READY Signal
  - Generating Wait States With the ’C2xx Wait-State Generator
- General-Purpose I/O Pins
Synchronous Serial Port
- Overview of the Synchronous Serial Port
- Components and Basic Operation
- Controlling and Resetting the Port
- Managing the Contents of the FIFO Buffers
- Transmitter Operation
- Receiver Operation
  - Burst Mode Reception
  - Continuous Mode Reception
- Troubleshooting
Asynchronous Serial Port
- Overview of the Asynchronous Serial Port
- Components and Basic Operation
- Controlling and Resetting the Port
- Transmitter Operation
- Receiver Operation
TMS320C209
- ’C209 Versus Other ’C2xx Devices
- ’C209 Memory and I/O Spaces
- ’C209 Interrupts
  - ’C209 Interrupt Registers
  - IACK Pin
- ’C209 On-Chip Peripherals
Register Summary
- A.1 Addresses and Reset Values
- A.2 Register Descriptions
TMS320C1x/C2x/C2xx/C5x Instruction Set Comparison
- B.1 Using the Instruction Set Comparison Table
  - B.1.1 An Example of a Table Entry
  - B.1.2 Symbols and Acronyms Used in the Table
- B.2 Enhanced Instructions
- B.3 Instruction Set Comparison Table
Program Examples
- C.1 About These Program Examples
- C.2 Shared Program Code
- C.3 Task-Specific Program Code
- C.4 Introduction to Generating Boot Loader Code
Submitting ROM Codes to TI
Design Considerations for Using XDS510 Emulator
- E.1 Designing Your Target System’s Emulator Connector (14-Pin Header)
- E.2 Bus Protocol
- E.3 Emulator Cable Pod
- E.4 Emulator Cable Pod Signal Timing
- E.5 Emulation Timing Calculations
- E.6 Connections Between the Emulator and the Target System
- E.7 Physical Dimensions for the 14-Pin Emulator Connector
- E.8 Emulation Design Considerations
Glossary
Index

Index

Index-3

asynchronous serial port

(continued)

baud-rate detection logic

detecting

character (ADC bit) 10-10

enabling/disabling (CAD bit) 10-8

block diagram 10-3

components 10-3

configuration 10-7

delta interrupts 10-17

enabling/disabling (DIM bit) 10-8

emulation modes (FREE and SOFT bits) 10-7

features 10-1

interrupts (TXRXINTs)

flag bit (TXRXINT) 5-21

introduction 10-5

mask bit in IMR (TXRXINT) 5-23

mask bits in ASPCR (DIM, TIM, RIM) 10-8

priority 5-16

three types 10-17

vector location 5-16

introduction 2-12

overrun in receiver, detecting (OE bit) 10-11

overview 10-2

receive interrupts 10-17

enabling/disabling (RIM bit) 10-8

receive pin (RX)

definition 10-4

detecting break on (BI bit) 10-10

receiver operation 10-20

reset conditions 5-34

resetting (URST bit) 10-7

signals 10-3

data 10-3

handshake 10-3

stop bit(s)

detecting invalid (FE bit) 10-11

setting number of (STB bit) 10-8

transmit interrupts 10-17

enabling/disabling (TIM bit) 10-8

transmit pin (TX)

definition 10-4

output level between transmissions (SETBRK

bit) 10-8

transmitter operation 10-19

asynchronous serial port registers

baud-rate divisor register (BRD) 10-13

control register (ASPCR) 10-7

configuring pins IO0–IO3 as inputs/out-

puts 10-15

quick reference A-13

asynchronous serial port registers

(continued)

I/O status register (IOSR)

description 10-10

quick reference A-13

introduction 10-4

receive register (ADTR)

detecting overrun in (OE bit) 10-11

detecting when empty (DR bit) 10-11

receive shift register (ARSR) 10-5

receive/transmit register (ADTR) 10-4

transmit register (ADTR)

detecting when empty (THRE bit) 10-11

detecting when it and AXSR are empty (TEMT

bit) 10-10

transmit shift register (AXSR) 10-5

detecting when it and ADTR are empty (TEMT

bit) 10-10

transmit/receive register (ADTR) 10-4

automatic baud-rate detection 10-14

auxiliary register arithmetic unit (ARAU), descrip-

tion 3-12

auxiliary register instructions

add short immediate value to current auxiliary

branch if current auxiliary register not zero

(BANZ) 7-41

compare current auxiliary register with AR0

(CMPR) 7-65

load specified auxiliary register (LAR) 7-80

modify auxiliary register pointer (MAR) 7-111

modify current auxiliary register (MAR) 7-111

store specified auxiliary register (SAR) 7-152

subtract short immediate value from current aux-

iliary register (SBRK) 7-154

auxiliary register pointer (ARP) 3-16, F-2

auxiliary register pointer buffer (ARB) 3-16, F-2

auxiliary register update (ARU) code 6-13

auxiliary registers (AR0–AR7)

block diagram 3-12

current auxiliary register 6-9

role in indirect addressing 6-9 to 6-18

update code (ARU) 6-13

description 3-12 to 3-14

general uses for 3-14

instructions that modify content 6-17

next auxiliary register 6-11

used in indirect addressing 3-12

AVIS bit 11-17

AXSR (asynchronous serial port transmit shift regis-

ter) 10-5