TEXAS INSTRUMENTS LM3S2620 Technical data

PRELIMINARY

LM3S2620 Microcontroller

DATA SHEET
Copyright © 2007 Luminary Micro, Inc.DS-LM3S2620-1972
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LM3S2620 Microcontroller

Table of Contents

About This Document .................................................................................................................... 20
Audience .............................................................................................................................................. 20
About This Manual ................................................................................................................................ 20
Related Documents ............................................................................................................................... 20
Documentation Conventions .................................................................................................................. 20
1 Architectural Overview ...................................................................................................... 22
1.1 Product Features ...................................................................................................................... 22
1.2 Target Applications .................................................................................................................... 28
1.3 High-Level Block Diagram ......................................................................................................... 28
1.4 Functional Overview .................................................................................................................. 29
1.4.1 ARM Cortex™-M3 ..................................................................................................................... 30
1.4.2 Motor Control Peripherals .......................................................................................................... 30
1.4.3 Analog Peripherals .................................................................................................................... 31
1.4.4 Serial Communications Peripherals ............................................................................................ 32
1.4.5 System Peripherals ................................................................................................................... 33
1.4.6 Memory Peripherals .................................................................................................................. 34
1.4.7 Additional Features ................................................................................................................... 34
1.4.8 Hardware Details ...................................................................................................................... 35
2 ARM Cortex-M3 Processor Core ...................................................................................... 36
2.1 Block Diagram .......................................................................................................................... 37
2.2 Functional Description ............................................................................................................... 37
2.2.1 Serial Wire and JTAG Debug ..................................................................................................... 37
2.2.2 Embedded Trace Macrocell (ETM) ............................................................................................. 38
2.2.3 Trace Port Interface Unit (TPIU) ................................................................................................. 38
2.2.4 ROM Table ............................................................................................................................... 38
2.2.5 Memory Protection Unit (MPU) ................................................................................................... 38
2.2.6 Nested Vectored Interrupt Controller (NVIC) ................................................................................ 38
3 Memory Map ....................................................................................................................... 42
4 Interrupts ............................................................................................................................ 44
5 JTAG Interface .................................................................................................................... 47
5.1 Block Diagram .......................................................................................................................... 48
5.2 Functional Description ............................................................................................................... 48
5.2.1 JTAG Interface Pins .................................................................................................................. 49
5.2.2 JTAG TAP Controller ................................................................................................................. 50
5.2.3 Shift Registers .......................................................................................................................... 51
5.2.4 Operational Considerations ........................................................................................................ 51
5.3 Initialization and Configuration ................................................................................................... 54
5.4 Register Descriptions ................................................................................................................ 54
5.4.1 Instruction Register (IR) ............................................................................................................. 54
5.4.2 Data Registers .......................................................................................................................... 56
6 System Control ................................................................................................................... 58
6.1 Functional Description ............................................................................................................... 58
6.1.1 Device Identification .................................................................................................................. 58
6.1.2 Reset Control ............................................................................................................................ 58
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6.1.3 Power Control ........................................................................................................................... 61
6.1.4 Clock Control ............................................................................................................................ 61
6.1.5 System Control ......................................................................................................................... 63
6.2 Initialization and Configuration ................................................................................................... 64
6.3 Register Map ............................................................................................................................ 64
6.4 Register Descriptions ................................................................................................................ 65
7 Hibernation Module .......................................................................................................... 117
7.1 Block Diagram ........................................................................................................................ 118
7.2 Functional Description ............................................................................................................. 118
7.2.1 Register Access Timing ........................................................................................................... 118
7.2.2 Clock Source .......................................................................................................................... 119
7.2.3 Battery Management ............................................................................................................... 119
7.2.4 Real-Time Clock ...................................................................................................................... 119
7.2.5 Non-Volatile Memory ............................................................................................................... 120
7.2.6 Power Control ......................................................................................................................... 120
7.2.7 Interrupts and Status ............................................................................................................... 120
7.3 Initialization and Configuration ................................................................................................. 121
7.3.1 Initialization ............................................................................................................................. 121
7.3.2 RTC Match Functionality (No Hibernation) ................................................................................ 121
7.3.3 RTC Match/Wake-Up from Hibernation ..................................................................................... 121
7.3.4 External Wake-Up from Hibernation .......................................................................................... 122
7.3.5 RTC/External Wake-Up from Hibernation .................................................................................. 122
7.4 Register Map .......................................................................................................................... 122
7.5 Register Descriptions .............................................................................................................. 123
8 Internal Memory ............................................................................................................... 136
8.1 Block Diagram ........................................................................................................................ 136
8.2 Functional Description ............................................................................................................. 136
8.2.1 SRAM Memory ........................................................................................................................ 136
8.2.2 Flash Memory ......................................................................................................................... 137
8.3 Flash Memory Initialization and Configuration ........................................................................... 138
8.3.1 Flash Programming ................................................................................................................. 138
8.3.2 Nonvolatile Register Programming ........................................................................................... 139
8.4 Register Map .......................................................................................................................... 139
8.5 Flash Register Descriptions (Flash Control Offset) ..................................................................... 140
8.6 Flash Register Descriptions (System Control Offset) .................................................................. 147
9 General-Purpose Input/Outputs (GPIOs) ....................................................................... 160
9.1 Functional Description ............................................................................................................. 160
9.1.1 Data Control ........................................................................................................................... 161
9.1.2 Interrupt Control ...................................................................................................................... 162
9.1.3 Mode Control .......................................................................................................................... 163
9.1.4 Commit Control ....................................................................................................................... 163
9.1.5 Pad Control ............................................................................................................................. 163
9.1.6 Identification ........................................................................................................................... 163
9.2 Initialization and Configuration ................................................................................................. 163
9.3 Register Map .......................................................................................................................... 164
9.4 Register Descriptions .............................................................................................................. 166
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10 General-Purpose Timers ................................................................................................. 201
10.1 Block Diagram ........................................................................................................................ 201
10.2 Functional Description ............................................................................................................. 202
10.2.1 GPTM Reset Conditions .......................................................................................................... 203
10.2.2 32-Bit Timer Operating Modes .................................................................................................. 203
10.2.3 16-Bit Timer Operating Modes .................................................................................................. 204
10.3 Initialization and Configuration ................................................................................................. 208
10.3.1 32-Bit One-Shot/Periodic Timer Mode ....................................................................................... 208
10.3.2 32-Bit Real-Time Clock (RTC) Mode ......................................................................................... 209
10.3.3 16-Bit One-Shot/Periodic Timer Mode ....................................................................................... 209
10.3.4 16-Bit Input Edge Count Mode ................................................................................................. 210
10.3.5 16-Bit Input Edge Timing Mode ................................................................................................ 210
10.3.6 16-Bit PWM Mode ................................................................................................................... 211
10.4 Register Map .......................................................................................................................... 211
10.5 Register Descriptions .............................................................................................................. 212
11 Watchdog Timer ............................................................................................................... 237
11.1 Block Diagram ........................................................................................................................ 237
11.2 Functional Description ............................................................................................................. 237
11.3 Initialization and Configuration ................................................................................................. 238
11.4 Register Map .......................................................................................................................... 238
11.5 Register Descriptions .............................................................................................................. 239
12 Universal Asynchronous Receivers/Transmitters (UARTs) ......................................... 260
12.1 Block Diagram ........................................................................................................................ 261
12.2 Functional Description ............................................................................................................. 261
12.2.1 Transmit/Receive Logic ........................................................................................................... 261
12.2.2 Baud-Rate Generation ............................................................................................................. 262
12.2.3 Data Transmission .................................................................................................................. 263
12.2.4 Serial IR (SIR) ......................................................................................................................... 263
12.2.5 FIFO Operation ....................................................................................................................... 264
12.2.6 Interrupts ................................................................................................................................ 264
12.2.7 Loopback Operation ................................................................................................................ 265
12.2.8 IrDA SIR block ........................................................................................................................ 265
12.3 Initialization and Configuration ................................................................................................. 265
12.4 Register Map .......................................................................................................................... 266
12.5 Register Descriptions .............................................................................................................. 267
13 Synchronous Serial Interface (SSI) ................................................................................ 301
13.1 Block Diagram ........................................................................................................................ 301
13.2 Functional Description ............................................................................................................. 301
13.2.1 Bit Rate Generation ................................................................................................................. 302
13.2.2 FIFO Operation ....................................................................................................................... 302
13.2.3 Interrupts ................................................................................................................................ 302
13.2.4 Frame Formats ....................................................................................................................... 303
13.3 Initialization and Configuration ................................................................................................. 310
13.4 Register Map .......................................................................................................................... 311
13.5 Register Descriptions .............................................................................................................. 312
14 Inter-Integrated Circuit (I2C) Interface ............................................................................ 338
14.1 Block Diagram ........................................................................................................................ 338
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14.2 Functional Description ............................................................................................................. 338
14.2.1 I2C Bus Functional Overview .................................................................................................... 339
14.2.2 Available Speed Modes ........................................................................................................... 341
14.2.3 Interrupts ................................................................................................................................ 342
14.2.4 Loopback Operation ................................................................................................................ 342
14.2.5 Command Sequence Flow Charts ............................................................................................ 342
14.3 Initialization and Configuration ................................................................................................. 349
14.4 I2C Register Map ..................................................................................................................... 350
14.5 Register Descriptions (I2C Master) ........................................................................................... 351
14.6 Register Descriptions (I2C Slave) ............................................................................................. 364
15 Controller Area Network (CAN) Module ......................................................................... 373
15.1 Controller Area Network Overview ............................................................................................ 373
15.2 Controller Area Network Features ............................................................................................ 373
15.3 Controller Area Network Block Diagram .................................................................................... 374
15.4 Controller Area Network Functional Description ......................................................................... 375
15.4.1 Initialization ............................................................................................................................. 375
15.4.2 Operation ............................................................................................................................... 376
15.4.3 Transmitting Message Objects ................................................................................................. 376
15.4.4 Configuring a Transmit Message Object .................................................................................... 376
15.4.5 Updating a Transmit Message Object ....................................................................................... 377
15.4.6 Accepting Received Message Objects ...................................................................................... 377
15.4.7 Receiving a Data Frame .......................................................................................................... 378
15.4.8 Receiving a Remote Frame ...................................................................................................... 378
15.4.9 Receive/Transmit Priority ......................................................................................................... 378
15.4.10 Configuring a Receive Message Object .................................................................................... 378
15.4.11 Handling of Received Message Objects .................................................................................... 379
15.4.12 Handling of Interrupts .............................................................................................................. 379
15.4.13 Bit Timing Configuration Error Considerations ........................................................................... 380
15.4.14 Bit Time and Bit Rate ............................................................................................................... 380
15.4.15 Calculating the Bit Timing Parameters ...................................................................................... 382
15.5 Controller Area Network Register Map ...................................................................................... 384
15.6 Register Descriptions .............................................................................................................. 386
16 Analog Comparators ....................................................................................................... 414
16.1 Block Diagram ........................................................................................................................ 415
16.2 Functional Description ............................................................................................................. 415
16.2.1 Internal Reference Programming .............................................................................................. 417
16.3 Initialization and Configuration ................................................................................................. 418
16.4 Register Map .......................................................................................................................... 418
16.5 Register Descriptions .............................................................................................................. 419
17 Pulse Width Modulator (PWM) ........................................................................................ 427
17.1 Block Diagram ........................................................................................................................ 427
17.2 Functional Description ............................................................................................................. 427
17.2.1 PWM Timer ............................................................................................................................. 427
17.2.2 PWM Comparators .................................................................................................................. 428
17.2.3 PWM Signal Generator ............................................................................................................ 429
17.2.4 Dead-Band Generator ............................................................................................................. 430
17.2.5 Interrupt Selector ..................................................................................................................... 430
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17.2.6 Synchronization Methods ......................................................................................................... 430
17.2.7 Fault Conditions ...................................................................................................................... 431
17.2.8 Output Control Block ............................................................................................................... 431
17.3 Initialization and Configuration ................................................................................................. 431
17.4 Register Map .......................................................................................................................... 432
17.5 Register Descriptions .............................................................................................................. 433
18 Quadrature Encoder Interface (QEI) ............................................................................... 462
18.1 Block Diagram ........................................................................................................................ 462
18.2 Functional Description ............................................................................................................. 463
18.3 Initialization and Configuration ................................................................................................. 465
18.4 Register Map .......................................................................................................................... 465
18.5 Register Descriptions .............................................................................................................. 466
19 Pin Diagram ...................................................................................................................... 479
20 Signal Tables .................................................................................................................... 480
21 Operating Characteristics ............................................................................................... 494
22 Electrical Characteristics ................................................................................................ 495
22.1 DC Characteristics .................................................................................................................. 495
22.1.1 Maximum Ratings ................................................................................................................... 495
22.1.2 Recommended DC Operating Conditions .................................................................................. 495
22.1.3 On-Chip Low Drop-Out (LDO) Regulator Characteristics ............................................................ 496
22.1.4 Power Specifications ............................................................................................................... 496
22.1.5 Flash Memory Characteristics .................................................................................................. 498
22.2 AC Characteristics ................................................................................................................... 498
22.2.1 Load Conditions ...................................................................................................................... 498
22.2.2 Clocks .................................................................................................................................... 498
22.2.3 Analog Comparator ................................................................................................................. 499
22.2.4 I2C ......................................................................................................................................... 499
22.2.5 Hibernation Module ................................................................................................................. 500
22.2.6 Synchronous Serial Interface (SSI) ........................................................................................... 501
22.2.7 JTAG and Boundary Scan ........................................................................................................ 502
22.2.8 General-Purpose I/O ............................................................................................................... 504
22.2.9 Reset ..................................................................................................................................... 504
23 Package Information ........................................................................................................ 507
A Serial Flash Loader .......................................................................................................... 509
A.1 Serial Flash Loader ................................................................................................................. 509
A.2 Interfaces ............................................................................................................................... 509
A.2.1 UART ..................................................................................................................................... 509
A.2.2 SSI ......................................................................................................................................... 509
A.3 Packet Handling ...................................................................................................................... 510
A.3.1 Packet Format ........................................................................................................................ 510
A.3.2 Sending Packets ..................................................................................................................... 510
A.3.3 Receiving Packets ................................................................................................................... 510
A.4 Commands ............................................................................................................................. 511
A.4.1 COMMAND_PING (0X20) ........................................................................................................ 511
A.4.2 COMMAND_GET_STATUS (0x23) ........................................................................................... 511
A.4.3 COMMAND_DOWNLOAD (0x21) ............................................................................................. 511
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A.4.4 COMMAND_SEND_DATA (0x24) ............................................................................................. 512
A.4.5 COMMAND_RUN (0x22) ......................................................................................................... 512
A.4.6 COMMAND_RESET (0x25) ..................................................................................................... 512
B Register Quick Reference ............................................................................................... 514
C Ordering and Contact Information ................................................................................. 532
C.1 Ordering Information ................................................................................................................ 532
C.2 Kits ......................................................................................................................................... 532
C.3 Company Information .............................................................................................................. 532
C.4 Support Information ................................................................................................................. 533
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List of Figures

Figure 1-1. Stellaris®2000 Series High-Level Block Diagram ............................................................... 29
Figure 2-1. CPU Block Diagram ......................................................................................................... 37
Figure 2-2. TPIU Block Diagram ........................................................................................................ 38
Figure 5-1. JTAG Module Block Diagram ............................................................................................ 48
Figure 5-2. Test Access Port State Machine ....................................................................................... 51
Figure 5-3. IDCODE Register Format ................................................................................................. 56
Figure 5-4. BYPASS Register Format ................................................................................................ 57
Figure 5-5. Boundary Scan Register Format ....................................................................................... 57
Figure 6-1. External Circuitry to Extend Reset .................................................................................... 59
Figure 7-1. Hibernation Module Block Diagram ................................................................................. 118
Figure 8-1. Flash Block Diagram ...................................................................................................... 136
Figure 9-1. GPIO Port Block Diagram ............................................................................................... 161
Figure 9-2. GPIODATA Write Example ............................................................................................. 162
Figure 9-3. GPIODATA Read Example ............................................................................................. 162
Figure 10-1. GPTM Module Block Diagram ........................................................................................ 202
Figure 10-2. 16-Bit Input Edge Count Mode Example .......................................................................... 206
Figure 10-3. 16-Bit Input Edge Time Mode Example ........................................................................... 207
Figure 10-4. 16-Bit PWM Mode Example ............................................................................................ 208
Figure 11-1. WDT Module Block Diagram .......................................................................................... 237
Figure 12-1. UART Module Block Diagram ......................................................................................... 261
Figure 12-2. UART Character Frame ................................................................................................. 262
Figure 12-3. IrDA Data Modulation ..................................................................................................... 264
Figure 13-1. SSI Module Block Diagram ............................................................................................. 301
Figure 13-2. TI Synchronous Serial Frame Format (Single Transfer) .................................................... 304
Figure 13-3. TI Synchronous Serial Frame Format (Continuous Transfer) ............................................ 304
Figure 13-4. Freescale SPI Format (Single Transfer) with SPO=0 and SPH=0 ...................................... 305
Figure 13-5. Freescale SPI Format (Continuous Transfer) with SPO=0 and SPH=0 .............................. 305
Figure 13-6. Freescale SPI Frame Format with SPO=0 and SPH=1 ..................................................... 306
Figure 13-7. Freescale SPI Frame Format (Single Transfer) with SPO=1 and SPH=0 ........................... 307
Figure 13-8. Freescale SPI Frame Format (Continuous Transfer) with SPO=1 and SPH=0 .................... 307
Figure 13-9. Freescale SPI Frame Format with SPO=1 and SPH=1 ..................................................... 308
Figure 13-10. MICROWIRE Frame Format (Single Frame) .................................................................... 309
Figure 13-11. MICROWIRE Frame Format (Continuous Transfer) ......................................................... 310
Figure 13-12. MICROWIRE Frame Format, SSIFss Input Setup and Hold Requirements ........................ 310
Figure 14-1. I2C Block Diagram ......................................................................................................... 338
Figure 14-2. I2C Bus Configuration .................................................................................................... 339
Figure 14-3. START and STOP Conditions ......................................................................................... 339
Figure 14-4. Complete Data Transfer with a 7-Bit Address ................................................................... 340
Figure 14-5. R/S Bit in First Byte ........................................................................................................ 340
Figure 14-6. Data Validity During Bit Transfer on the I2C Bus ............................................................... 340
Figure 14-7. Master Single SEND ...................................................................................................... 343
Figure 14-8. Master Single RECEIVE ................................................................................................. 344
Figure 14-9. Master Burst SEND ....................................................................................................... 345
Figure 14-10. Master Burst RECEIVE .................................................................................................. 346
Figure 14-11. Master Burst RECEIVE after Burst SEND ........................................................................ 347
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Figure 14-12. Master Burst SEND after Burst RECEIVE ........................................................................ 348
Figure 14-13. Slave Command Sequence ............................................................................................ 349
Figure 15-1. CAN Module Block Diagram ........................................................................................... 374
Figure 15-2. CAN Bit Time ................................................................................................................ 381
Figure 16-1. Analog Comparator Module Block Diagram ..................................................................... 415
Figure 16-2. Structure of Comparator Unit .......................................................................................... 416
Figure 16-3. Comparator Internal Reference Structure ........................................................................ 417
Figure 17-1. PWM Module Block Diagram .......................................................................................... 427
Figure 17-2. PWM Count-Down Mode ................................................................................................ 428
Figure 17-3. PWM Count-Up/Down Mode .......................................................................................... 429
Figure 17-4. PWM Generation Example In Count-Up/Down Mode ....................................................... 429
Figure 17-5. PWM Dead-Band Generator ........................................................................................... 430
Figure 18-1. QEI Block Diagram ........................................................................................................ 462
Figure 18-2. Quadrature Encoder and Velocity Predivider Operation .................................................... 464
Figure 19-1. Pin Connection Diagram ................................................................................................ 479
Figure 22-1. Load Conditions ............................................................................................................ 498
Figure 22-2. I2C Timing ..................................................................................................................... 500
Figure 22-3. Hibernation Module Timing ............................................................................................. 501
Figure 22-4. SSI Timing for TI Frame Format (FRF=01), Single Transfer Timing Measurement .............. 501
Figure 22-5. SSI Timing for MICROWIRE Frame Format (FRF=10), Single Transfer ............................. 502
Figure 22-6. SSI Timing for SPI Frame Format (FRF=00), with SPH=1 ................................................. 502
Figure 22-7. JTAG Test Clock Input Timing ......................................................................................... 503
Figure 22-8. JTAG Test Access Port (TAP) Timing .............................................................................. 504
Figure 22-9. JTAG TRST Timing ........................................................................................................ 504
Figure 22-10. External Reset Timing (RST) .......................................................................................... 505
Figure 22-11. Power-On Reset Timing ................................................................................................. 505
Figure 22-12. Brown-Out Reset Timing ................................................................................................ 505
Figure 22-13. Software Reset Timing ................................................................................................... 506
Figure 22-14. Watchdog Reset Timing ................................................................................................. 506
Figure 23-1. 100-Pin LQFP Package .................................................................................................. 507
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LM3S2620 Microcontroller

List of Tables

Table 1. Documentation Conventions ............................................................................................ 20
Table 3-1. Memory Map ................................................................................................................... 42
Table 4-1. Exception Types .............................................................................................................. 44
Table 4-2. Interrupts ........................................................................................................................ 45
Table 5-1. JTAG Port Pins Reset State ............................................................................................. 49
Table 5-2. JTAG Instruction Register Commands ............................................................................... 54
Table 6-1. System Control Register Map ........................................................................................... 64
Table 7-1. Hibernation Module Register Map ................................................................................... 122
Table 8-1. Flash Protection Policy Combinations ............................................................................. 138
Table 8-2. Flash Resident Registers ............................................................................................... 139
Table 8-3. Flash Register Map ........................................................................................................ 139
Table 9-1. GPIO Pad Configuration Examples ................................................................................. 163
Table 9-2. GPIO Interrupt Configuration Example ............................................................................ 164
Table 9-3. GPIO Register Map ....................................................................................................... 165
Table 10-1. Available CCP Pins ........................................................................................................ 202
Table 10-2. 16-Bit Timer With Prescaler Configurations ..................................................................... 205
Table 10-3. Timers Register Map ...................................................................................................... 211
Table 11-1. Watchdog Timer Register Map ........................................................................................ 238
Table 12-1. UART Register Map ....................................................................................................... 266
Table 13-1. SSI Register Map .......................................................................................................... 311
Table 14-1. Examples of I2C Master Timer Period versus Speed Mode ............................................... 341
Table 14-2. Inter-Integrated Circuit (I2C) Interface Register Map ......................................................... 350
Table 14-3. Write Field Decoding for I2CMCS[3:0] Field (Sheet 1 of 3) ................................................ 355
Table 15-1. Transmit Message Object Bit Settings ............................................................................. 377
Table 15-2. Receive Message Object Bit Settings .............................................................................. 379
Table 15-3. CAN Protocol Ranges .................................................................................................... 381
Table 15-4. CAN Register Map ......................................................................................................... 384
Table 16-1. Comparator 0 Operating Modes ...................................................................................... 416
Table 16-2. Comparator 1 Operating Modes ...................................................................................... 416
Table 16-3. Comparator 2 Operating Modes ...................................................................................... 417
Table 16-4. Internal Reference Voltage and ACREFCTL Field Values ................................................. 417
Table 16-5. Analog Comparators Register Map ................................................................................. 419
Table 17-1. PWM Register Map ........................................................................................................ 432
Table 18-1. QEI Register Map .......................................................................................................... 465
Table 20-1. Signals by Pin Number ................................................................................................... 480
Table 20-2. Signals by Signal Name ................................................................................................. 484
Table 20-3. Signals by Function, Except for GPIO ............................................................................. 488
Table 20-4. GPIO Pins and Alternate Functions ................................................................................. 491
Table 21-1. Temperature Characteristics ........................................................................................... 494
Table 21-2. Thermal Characteristics ................................................................................................. 494
Table 22-1. Maximum Ratings .......................................................................................................... 495
Table 22-2. Recommended DC Operating Conditions ........................................................................ 495
Table 22-3. LDO Regulator Characteristics ....................................................................................... 496
Table 22-4. Detailed Power Specifications ........................................................................................ 497
Table 22-5. Flash Memory Characteristics ........................................................................................ 498
Table 22-6. Phase Locked Loop (PLL) Characteristics ....................................................................... 498
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Table 22-7. Clock Characteristics ..................................................................................................... 498
Table 22-8. Crystal Characteristics ................................................................................................... 499
Table 22-9. Analog Comparator Characteristics ................................................................................. 499
Table 22-10. Analog Comparator Voltage Reference Characteristics .................................................... 499
Table 22-11. I2C Characteristics ......................................................................................................... 499
Table 22-12. Hibernation Module Characteristics ................................................................................. 500
Table 22-13. SSI Characteristics ........................................................................................................ 501
Table 22-14. JTAG Characteristics ..................................................................................................... 502
Table 22-15. GPIO Characteristics ..................................................................................................... 504
Table 22-16. Reset Characteristics ..................................................................................................... 504
Table C-1. Part Ordering Information ............................................................................................... 532
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LM3S2620 Microcontroller

List of Registers

System Control .............................................................................................................................. 58
Register 1: Device Identification 0 (DID0), offset 0x000 ....................................................................... 66
Register 2: Brown-Out Reset Control (PBORCTL), offset 0x030 .......................................................... 68
Register 3: LDO Power Control (LDOPCTL), offset 0x034 ................................................................... 69
Register 4: Raw Interrupt Status (RIS), offset 0x050 ........................................................................... 70
Register 5: Interrupt Mask Control (IMC), offset 0x054 ........................................................................ 71
Register 6: Masked Interrupt Status and Clear (MISC), offset 0x058 .................................................... 72
Register 7: Reset Cause (RESC), offset 0x05C .................................................................................. 73
Register 8: Run-Mode Clock Configuration (RCC), offset 0x060 .......................................................... 74
Register 9: XTAL to PLL Translation (PLLCFG), offset 0x064 .............................................................. 78
Register 10: Run-Mode Clock Configuration 2 (RCC2), offset 0x070 ...................................................... 79
Register 11: Deep Sleep Clock Configuration (DSLPCLKCFG), offset 0x144 .......................................... 81
Register 12: Device Identification 1 (DID1), offset 0x004 ....................................................................... 82
Register 13: Device Capabilities 0 (DC0), offset 0x008 ......................................................................... 84
Register 14: Device Capabilities 1 (DC1), offset 0x010 ......................................................................... 85
Register 15: Device Capabilities 2 (DC2), offset 0x014 ......................................................................... 87
Register 16: Device Capabilities 3 (DC3), offset 0x018 ......................................................................... 89
Register 17: Device Capabilities 4 (DC4), offset 0x01C ......................................................................... 91
Register 18: Run Mode Clock Gating Control Register 0 (RCGC0), offset 0x100 .................................... 92
Register 19: Sleep Mode Clock Gating Control Register 0 (SCGC0), offset 0x110 .................................. 94
Register 20: Deep Sleep Mode Clock Gating Control Register 0 (DCGC0), offset 0x120 ......................... 96
Register 21: Run Mode Clock Gating Control Register 1 (RCGC1), offset 0x104 .................................... 98
Register 22: Sleep Mode Clock Gating Control Register 1 (SCGC1), offset 0x114 ................................. 101
Register 23: Deep Sleep Mode Clock Gating Control Register 1 (DCGC1), offset 0x124 ....................... 104
Register 24: Run Mode Clock Gating Control Register 2 (RCGC2), offset 0x108 ................................... 107
Register 25: Sleep Mode Clock Gating Control Register 2 (SCGC2), offset 0x118 ................................. 109
Register 26: Deep Sleep Mode Clock Gating Control Register 2 (DCGC2), offset 0x128 ....................... 111
Register 27: Software Reset Control 0 (SRCR0), offset 0x040 ............................................................. 113
Register 28: Software Reset Control 1 (SRCR1), offset 0x044 ............................................................. 114
Register 29: Software Reset Control 2 (SRCR2), offset 0x048 ............................................................. 116
Hibernation Module ..................................................................................................................... 117
Register 1: Hibernation RTC Counter (HIBRTCC), offset 0x000 ......................................................... 124
Register 2: Hibernation RTC Match 0 (HIBRTCM0), offset 0x004 ....................................................... 125
Register 3: Hibernation RTC Match 1 (HIBRTCM1), offset 0x008 ....................................................... 126
Register 4: Hibernation RTC Load (HIBRTCLD), offset 0x00C ........................................................... 127
Register 5: Hibernation Control (HIBCTL), offset 0x010 ..................................................................... 128
Register 6: Hibernation Interrupt Mask (HIBIM), offset 0x014 ............................................................. 130
Register 7: Hibernation Raw Interrupt Status (HIBRIS), offset 0x018 .................................................. 131
Register 8: Hibernation Masked Interrupt Status (HIBMIS), offset 0x01C ............................................ 132
Register 9: Hibernation Interrupt Clear (HIBIC), offset 0x020 ............................................................. 133
Register 10: Hibernation RTC Trim (HIBRTCT), offset 0x024 ............................................................... 134
Register 11: Hibernation Data (HIBDATA), offset 0x030-0x12C ............................................................ 135
Internal Memory ........................................................................................................................... 136
Register 1: Flash Memory Address (FMA), offset 0x000 .................................................................... 141
Register 2: Flash Memory Data (FMD), offset 0x004 ......................................................................... 142
Preliminary
13November 30, 2007
Table of Contents
Register 3: Flash Memory Control (FMC), offset 0x008 ..................................................................... 143
Register 4: Flash Controller Raw Interrupt Status (FCRIS), offset 0x00C ............................................ 145
Register 5: Flash Controller Interrupt Mask (FCIM), offset 0x010 ........................................................ 146
Register 6: Flash Controller Masked Interrupt Status and Clear (FCMISC), offset 0x014 ..................... 147
Register 7: USec Reload (USECRL), offset 0x140 ............................................................................ 148
Register 8: Flash Memory Protection Read Enable 0 (FMPRE0), offset 0x130 and 0x200 ................... 149
Register 9: Flash Memory Protection Program Enable 0 (FMPPE0), offset 0x134 and 0x400 ............... 150
Register 10: User Debug (USER_DBG), offset 0x1D0 ......................................................................... 151
Register 11: User Register 0 (USER_REG0), offset 0x1E0 .................................................................. 152
Register 12: User Register 1 (USER_REG1), offset 0x1E4 .................................................................. 153
Register 13: Flash Memory Protection Read Enable 1 (FMPRE1), offset 0x204 .................................... 154
Register 14: Flash Memory Protection Read Enable 2 (FMPRE2), offset 0x208 .................................... 155
Register 15: Flash Memory Protection Read Enable 3 (FMPRE3), offset 0x20C ................................... 156
Register 16: Flash Memory Protection Program Enable 1 (FMPPE1), offset 0x404 ............................... 157
Register 17: Flash Memory Protection Program Enable 2 (FMPPE2), offset 0x408 ............................... 158
Register 18: Flash Memory Protection Program Enable 3 (FMPPE3), offset 0x40C ............................... 159
General-Purpose Input/Outputs (GPIOs) ................................................................................... 160
Register 1: GPIO Data (GPIODATA), offset 0x000 ............................................................................ 167
Register 2: GPIO Direction (GPIODIR), offset 0x400 ......................................................................... 168
Register 3: GPIO Interrupt Sense (GPIOIS), offset 0x404 .................................................................. 169
Register 4: GPIO Interrupt Both Edges (GPIOIBE), offset 0x408 ........................................................ 170
Register 5: GPIO Interrupt Event (GPIOIEV), offset 0x40C ................................................................ 171
Register 6: GPIO Interrupt Mask (GPIOIM), offset 0x410 ................................................................... 172
Register 7: GPIO Raw Interrupt Status (GPIORIS), offset 0x414 ........................................................ 173
Register 8: GPIO Masked Interrupt Status (GPIOMIS), offset 0x418 ................................................... 174
Register 9: GPIO Interrupt Clear (GPIOICR), offset 0x41C ................................................................ 175
Register 10: GPIO Alternate Function Select (GPIOAFSEL), offset 0x420 ............................................ 176
Register 11: GPIO 2-mA Drive Select (GPIODR2R), offset 0x500 ........................................................ 178
Register 12: GPIO 4-mA Drive Select (GPIODR4R), offset 0x504 ........................................................ 179
Register 13: GPIO 8-mA Drive Select (GPIODR8R), offset 0x508 ........................................................ 180
Register 14: GPIO Open Drain Select (GPIOODR), offset 0x50C ......................................................... 181
Register 15: GPIO Pull-Up Select (GPIOPUR), offset 0x510 ................................................................ 182
Register 16: GPIO Pull-Down Select (GPIOPDR), offset 0x514 ........................................................... 183
Register 17: GPIO Slew Rate Control Select (GPIOSLR), offset 0x518 ................................................ 184
Register 18: GPIO Digital Enable (GPIODEN), offset 0x51C ................................................................ 185
Register 19: GPIO Lock (GPIOLOCK), offset 0x520 ............................................................................ 186
Register 20: GPIO Commit (GPIOCR), offset 0x524 ............................................................................ 187
Register 21: GPIO Peripheral Identification 4 (GPIOPeriphID4), offset 0xFD0 ....................................... 189
Register 22: GPIO Peripheral Identification 5 (GPIOPeriphID5), offset 0xFD4 ....................................... 190
Register 23: GPIO Peripheral Identification 6 (GPIOPeriphID6), offset 0xFD8 ....................................... 191
Register 24: GPIO Peripheral Identification 7 (GPIOPeriphID7), offset 0xFDC ...................................... 192
Register 25: GPIO Peripheral Identification 0 (GPIOPeriphID0), offset 0xFE0 ....................................... 193
Register 26: GPIO Peripheral Identification 1 (GPIOPeriphID1), offset 0xFE4 ....................................... 194
Register 27: GPIO Peripheral Identification 2 (GPIOPeriphID2), offset 0xFE8 ....................................... 195
Register 28: GPIO Peripheral Identification 3 (GPIOPeriphID3), offset 0xFEC ...................................... 196
Register 29: GPIO PrimeCell Identification 0 (GPIOPCellID0), offset 0xFF0 .......................................... 197
Register 30: GPIO PrimeCell Identification 1 (GPIOPCellID1), offset 0xFF4 .......................................... 198
Register 31: GPIO PrimeCell Identification 2 (GPIOPCellID2), offset 0xFF8 .......................................... 199
Preliminary
November 30, 200714
LM3S2620 Microcontroller
Register 32: GPIO PrimeCell Identification 3 (GPIOPCellID3), offset 0xFFC ......................................... 200
General-Purpose Timers ............................................................................................................. 201
Register 1: GPTM Configuration (GPTMCFG), offset 0x000 .............................................................. 213
Register 2: GPTM TimerA Mode (GPTMTAMR), offset 0x004 ............................................................ 214
Register 3: GPTM TimerB Mode (GPTMTBMR), offset 0x008 ............................................................ 216
Register 4: GPTM Control (GPTMCTL), offset 0x00C ........................................................................ 218
Register 5: GPTM Interrupt Mask (GPTMIMR), offset 0x018 .............................................................. 221
Register 6: GPTM Raw Interrupt Status (GPTMRIS), offset 0x01C ..................................................... 223
Register 7: GPTM Masked Interrupt Status (GPTMMIS), offset 0x020 ................................................ 224
Register 8: GPTM Interrupt Clear (GPTMICR), offset 0x024 .............................................................. 225
Register 9: GPTM TimerA Interval Load (GPTMTAILR), offset 0x028 ................................................. 227
Register 10: GPTM TimerB Interval Load (GPTMTBILR), offset 0x02C ................................................ 228
Register 11: GPTM TimerA Match (GPTMTAMATCHR), offset 0x030 ................................................... 229
Register 12: GPTM TimerB Match (GPTMTBMATCHR), offset 0x034 .................................................. 230
Register 13: GPTM TimerA Prescale (GPTMTAPR), offset 0x038 ........................................................ 231
Register 14: GPTM TimerB Prescale (GPTMTBPR), offset 0x03C ....................................................... 232
Register 15: GPTM TimerA Prescale Match (GPTMTAPMR), offset 0x040 ........................................... 233
Register 16: GPTM TimerB Prescale Match (GPTMTBPMR), offset 0x044 ........................................... 234
Register 17: GPTM TimerA (GPTMTAR), offset 0x048 ........................................................................ 235
Register 18: GPTM TimerB (GPTMTBR), offset 0x04C ....................................................................... 236
Watchdog Timer ........................................................................................................................... 237
Register 1: Watchdog Load (WDTLOAD), offset 0x000 ...................................................................... 240
Register 2: Watchdog Value (WDTVALUE), offset 0x004 ................................................................... 241
Register 3: Watchdog Control (WDTCTL), offset 0x008 ..................................................................... 242
Register 4: Watchdog Interrupt Clear (WDTICR), offset 0x00C .......................................................... 243
Register 5: Watchdog Raw Interrupt Status (WDTRIS), offset 0x010 .................................................. 244
Register 6: Watchdog Masked Interrupt Status (WDTMIS), offset 0x014 ............................................. 245
Register 7: Watchdog Test (WDTTEST), offset 0x418 ....................................................................... 246
Register 8: Watchdog Lock (WDTLOCK), offset 0xC00 ..................................................................... 247
Register 9: Watchdog Peripheral Identification 4 (WDTPeriphID4), offset 0xFD0 ................................. 248
Register 10: Watchdog Peripheral Identification 5 (WDTPeriphID5), offset 0xFD4 ................................. 249
Register 11: Watchdog Peripheral Identification 6 (WDTPeriphID6), offset 0xFD8 ................................. 250
Register 12: Watchdog Peripheral Identification 7 (WDTPeriphID7), offset 0xFDC ................................ 251
Register 13: Watchdog Peripheral Identification 0 (WDTPeriphID0), offset 0xFE0 ................................. 252
Register 14: Watchdog Peripheral Identification 1 (WDTPeriphID1), offset 0xFE4 ................................. 253
Register 15: Watchdog Peripheral Identification 2 (WDTPeriphID2), offset 0xFE8 ................................. 254
Register 16: Watchdog Peripheral Identification 3 (WDTPeriphID3), offset 0xFEC ................................. 255
Register 17: Watchdog PrimeCell Identification 0 (WDTPCellID0), offset 0xFF0 .................................... 256
Register 18: Watchdog PrimeCell Identification 1 (WDTPCellID1), offset 0xFF4 .................................... 257
Register 19: Watchdog PrimeCell Identification 2 (WDTPCellID2), offset 0xFF8 .................................... 258
Register 20: Watchdog PrimeCell Identification 3 (WDTPCellID3 ), offset 0xFFC .................................. 259
Universal Asynchronous Receivers/Transmitters (UARTs) ..................................................... 260
Register 1: UART Data (UARTDR), offset 0x000 ............................................................................... 268
Register 2: UART Receive Status/Error Clear (UARTRSR/UARTECR), offset 0x004 ........................... 270
Register 3: UART Flag (UARTFR), offset 0x018 ................................................................................ 272
Register 4: UART IrDA Low-Power Register (UARTILPR), offset 0x020 ............................................. 274
Register 5: UART Integer Baud-Rate Divisor (UARTIBRD), offset 0x024 ............................................ 275
Register 6: UART Fractional Baud-Rate Divisor (UARTFBRD), offset 0x028 ....................................... 276
Preliminary
15November 30, 2007
Table of Contents
Register 7: UART Line Control (UARTLCRH), offset 0x02C ............................................................... 277
Register 8: UART Control (UARTCTL), offset 0x030 ......................................................................... 279
Register 9: UART Interrupt FIFO Level Select (UARTIFLS), offset 0x034 ........................................... 281
Register 10: UART Interrupt Mask (UARTIM), offset 0x038 ................................................................. 283
Register 11: UART Raw Interrupt Status (UARTRIS), offset 0x03C ...................................................... 285
Register 12: UART Masked Interrupt Status (UARTMIS), offset 0x040 ................................................. 286
Register 13: UART Interrupt Clear (UARTICR), offset 0x044 ............................................................... 287
Register 14: UART Peripheral Identification 4 (UARTPeriphID4), offset 0xFD0 ..................................... 289
Register 15: UART Peripheral Identification 5 (UARTPeriphID5), offset 0xFD4 ..................................... 290
Register 16: UART Peripheral Identification 6 (UARTPeriphID6), offset 0xFD8 ..................................... 291
Register 17: UART Peripheral Identification 7 (UARTPeriphID7), offset 0xFDC ..................................... 292
Register 18: UART Peripheral Identification 0 (UARTPeriphID0), offset 0xFE0 ...................................... 293
Register 19: UART Peripheral Identification 1 (UARTPeriphID1), offset 0xFE4 ...................................... 294
Register 20: UART Peripheral Identification 2 (UARTPeriphID2), offset 0xFE8 ...................................... 295
Register 21: UART Peripheral Identification 3 (UARTPeriphID3), offset 0xFEC ..................................... 296
Register 22: UART PrimeCell Identification 0 (UARTPCellID0), offset 0xFF0 ........................................ 297
Register 23: UART PrimeCell Identification 1 (UARTPCellID1), offset 0xFF4 ........................................ 298
Register 24: UART PrimeCell Identification 2 (UARTPCellID2), offset 0xFF8 ........................................ 299
Register 25: UART PrimeCell Identification 3 (UARTPCellID3), offset 0xFFC ........................................ 300
Synchronous Serial Interface (SSI) ............................................................................................ 301
Register 1: SSI Control 0 (SSICR0), offset 0x000 .............................................................................. 313
Register 2: SSI Control 1 (SSICR1), offset 0x004 .............................................................................. 315
Register 3: SSI Data (SSIDR), offset 0x008 ...................................................................................... 317
Register 4: SSI Status (SSISR), offset 0x00C ................................................................................... 318
Register 5: SSI Clock Prescale (SSICPSR), offset 0x010 .................................................................. 320
Register 6: SSI Interrupt Mask (SSIIM), offset 0x014 ......................................................................... 321
Register 7: SSI Raw Interrupt Status (SSIRIS), offset 0x018 .............................................................. 323
Register 8: SSI Masked Interrupt Status (SSIMIS), offset 0x01C ........................................................ 324
Register 9: SSI Interrupt Clear (SSIICR), offset 0x020 ....................................................................... 325
Register 10: SSI Peripheral Identification 4 (SSIPeriphID4), offset 0xFD0 ............................................. 326
Register 11: SSI Peripheral Identification 5 (SSIPeriphID5), offset 0xFD4 ............................................. 327
Register 12: SSI Peripheral Identification 6 (SSIPeriphID6), offset 0xFD8 ............................................. 328
Register 13: SSI Peripheral Identification 7 (SSIPeriphID7), offset 0xFDC ............................................ 329
Register 14: SSI Peripheral Identification 0 (SSIPeriphID0), offset 0xFE0 ............................................. 330
Register 15: SSI Peripheral Identification 1 (SSIPeriphID1), offset 0xFE4 ............................................. 331
Register 16: SSI Peripheral Identification 2 (SSIPeriphID2), offset 0xFE8 ............................................. 332
Register 17: SSI Peripheral Identification 3 (SSIPeriphID3), offset 0xFEC ............................................ 333
Register 18: SSI PrimeCell Identification 0 (SSIPCellID0), offset 0xFF0 ............................................... 334
Register 19: SSI PrimeCell Identification 1 (SSIPCellID1), offset 0xFF4 ............................................... 335
Register 20: SSI PrimeCell Identification 2 (SSIPCellID2), offset 0xFF8 ............................................... 336
Register 21: SSI PrimeCell Identification 3 (SSIPCellID3), offset 0xFFC ............................................... 337
Inter-Integrated Circuit (I2C) Interface ........................................................................................ 338
Register 1: I2C Master Slave Address (I2CMSA), offset 0x000 ........................................................... 352
Register 2: I2C Master Control/Status (I2CMCS), offset 0x004 ........................................................... 353
Register 3: I2C Master Data (I2CMDR), offset 0x008 ......................................................................... 357
Register 4: I2C Master Timer Period (I2CMTPR), offset 0x00C ........................................................... 358
Register 5: I2C Master Interrupt Mask (I2CMIMR), offset 0x010 ......................................................... 359
Register 6: I2C Master Raw Interrupt Status (I2CMRIS), offset 0x014 ................................................. 360
Preliminary
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LM3S2620 Microcontroller
Register 7: I2C Master Masked Interrupt Status (I2CMMIS), offset 0x018 ........................................... 361
Register 8: I2C Master Interrupt Clear (I2CMICR), offset 0x01C ......................................................... 362
Register 9: I2C Master Configuration (I2CMCR), offset 0x020 ............................................................ 363
Register 10: I2C Slave Own Address (I2CSOAR), offset 0x000 ............................................................ 365
Register 11: I2C Slave Control/Status (I2CSCSR), offset 0x004 ........................................................... 366
Register 12: I2C Slave Data (I2CSDR), offset 0x008 ........................................................................... 368
Register 13: I2C Slave Interrupt Mask (I2CSIMR), offset 0x00C ........................................................... 369
Register 14: I2C Slave Raw Interrupt Status (I2CSRIS), offset 0x010 ................................................... 370
Register 15: I2C Slave Masked Interrupt Status (I2CSMIS), offset 0x014 .............................................. 371
Register 16: I2C Slave Interrupt Clear (I2CSICR), offset 0x018 ............................................................ 372
Controller Area Network (CAN) Module ..................................................................................... 373
Register 1: CAN Control (CANCTL), offset 0x000 ............................................................................. 387
Register 2: CAN Status (CANSTS), offset 0x004 ............................................................................... 389
Register 3: CAN Error Counter (CANERR), offset 0x008 ................................................................... 392
Register 4: CAN Bit Timing (CANBIT), offset 0x00C .......................................................................... 393
Register 5: CAN Interrupt (CANINT), offset 0x010 ............................................................................. 395
Register 6: CAN Test (CANTST), offset 0x014 .................................................................................. 396
Register 7: CAN Baud Rate Prescalar Extension (CANBRPE), offset 0x018 ....................................... 398
Register 8: CAN IF1 Command Request (CANIF1CRQ), offset 0x020 ................................................ 399
Register 9: CAN IF2 Command Request (CANIF2CRQ), offset 0x080 ................................................ 399
Register 10: CAN IF1 Command Mask (CANIF1CMSK), offset 0x024 .................................................. 400
Register 11: CAN IF2 Command Mask (CANIF2CMSK), offset 0x084 .................................................. 400
Register 12: CAN IF1 Mask 1 (CANIF1MSK1), offset 0x028 ................................................................ 403
Register 13: CAN IF2 Mask 1 (CANIF2MSK1), offset 0x088 ................................................................ 403
Register 14: CAN IF1 Mask 2 (CANIF1MSK2), offset 0x02C ................................................................ 404
Register 15: CAN IF2 Mask 2 (CANIF2MSK2), offset 0x08C ................................................................ 404
Register 16: CAN IF1 Arbitration 1 (CANIF1ARB1), offset 0x030 ......................................................... 405
Register 17: CAN IF2 Arbitration 1 (CANIF2ARB1), offset 0x090 ......................................................... 405
Register 18: CAN IF1 Arbitration 2 (CANIF1ARB2), offset 0x034 ......................................................... 406
Register 19: CAN IF2 Arbitration 2 (CANIF2ARB2), offset 0x094 ......................................................... 406
Register 20: CAN IF1 Message Control (CANIF1MCTL), offset 0x038 .................................................. 407
Register 21: CAN IF2 Message Control (CANIF2MCTL), offset 0x098 .................................................. 407
Register 22: CAN IF1 Data A1 (CANIF1DA1), offset 0x03C ................................................................. 409
Register 23: CAN IF1 Data A2 (CANIF1DA2), offset 0x040 ................................................................. 409
Register 24: CAN IF1 Data B1 (CANIF1DB1), offset 0x044 ................................................................. 409
Register 25: CAN IF1 Data B2 (CANIF1DB2), offset 0x048 ................................................................. 409
Register 26: CAN IF2 Data A1 (CANIF2DA1), offset 0x09C ................................................................. 409
Register 27: CAN IF2 Data A2 (CANIF2DA2), offset 0x0A0 ................................................................. 409
Register 28: CAN IF2 Data B1 (CANIF2DB1), offset 0x0A4 ................................................................. 409
Register 29: CAN IF2 Data B2 (CANIF2DB2), offset 0x0A8 ................................................................. 409
Register 30: CAN Transmission Request 1 (CANTXRQ1), offset 0x100 ................................................ 410
Register 31: CAN Transmission Request 2 (CANTXRQ2), offset 0x104 ................................................ 410
Register 32: CAN New Data 1 (CANNWDA1), offset 0x120 ................................................................. 411
Register 33: CAN New Data 2 (CANNWDA2), offset 0x124 ................................................................. 411
Register 34: CAN Message 1 Interrupt Pending (CANMSG1INT), offset 0x140 ..................................... 412
Register 35: CAN Message 2 Interrupt Pending (CANMSG2INT), offset 0x144 ..................................... 412
Register 36: CAN Message 1 Valid (CANMSG1VAL), offset 0x160 ....................................................... 413
Register 37: CAN Message 2 Valid (CANMSG2VAL), offset 0x164 ....................................................... 413
Preliminary
17November 30, 2007
Table of Contents
Analog Comparators ................................................................................................................... 414
Register 1: Analog Comparator Masked Interrupt Status (ACMIS), offset 0x00 .................................... 420
Register 2: Analog Comparator Raw Interrupt Status (ACRIS), offset 0x04 ......................................... 421
Register 3: Analog Comparator Interrupt Enable (ACINTEN), offset 0x08 ........................................... 422
Register 4: Analog Comparator Reference Voltage Control (ACREFCTL), offset 0x10 ......................... 423
Register 5: Analog Comparator Status 0 (ACSTAT0), offset 0x20 ....................................................... 424
Register 6: Analog Comparator Status 1 (ACSTAT1), offset 0x40 ....................................................... 424
Register 7: Analog Comparator Status 2 (ACSTAT2), offset 0x60 ....................................................... 424
Register 8: Analog Comparator Control 0 (ACCTL0), offset 0x24 ....................................................... 425
Register 9: Analog Comparator Control 1 (ACCTL1), offset 0x44 ....................................................... 425
Register 10: Analog Comparator Control 2 (ACCTL2), offset 0x64 ...................................................... 425
Pulse Width Modulator (PWM) .................................................................................................... 427
Register 1: PWM Master Control (PWMCTL), offset 0x000 ................................................................ 434
Register 2: PWM Time Base Sync (PWMSYNC), offset 0x004 ........................................................... 435
Register 3: PWM Output Enable (PWMENABLE), offset 0x008 .......................................................... 436
Register 4: PWM Output Inversion (PWMINVERT), offset 0x00C ....................................................... 437
Register 5: PWM Output Fault (PWMFAULT), offset 0x010 ................................................................ 438
Register 6: PWM Interrupt Enable (PWMINTEN), offset 0x014 ........................................................... 439
Register 7: PWM Raw Interrupt Status (PWMRIS), offset 0x018 ........................................................ 440
Register 8: PWM Interrupt Status and Clear (PWMISC), offset 0x01C ................................................ 441
Register 9: PWM Status (PWMSTATUS), offset 0x020 ...................................................................... 442
Register 10: PWM0 Control (PWM0CTL), offset 0x040 ....................................................................... 443
Register 11: PWM1 Control (PWM1CTL), offset 0x080 ....................................................................... 443
Register 12: PWM0 Interrupt Enable (PWM0INTEN), offset 0x044 ...................................................... 445
Register 13: PWM1 Interrupt Enable (PWM1INTEN), offset 0x084 ...................................................... 445
Register 14: PWM0 Raw Interrupt Status (PWM0RIS), offset 0x048 .................................................... 447
Register 15: PWM1 Raw Interrupt Status (PWM1RIS), offset 0x088 .................................................... 447
Register 16: PWM0 Interrupt Status and Clear (PWM0ISC), offset 0x04C ........................................... 448
Register 17: PWM1 Interrupt Status and Clear (PWM1ISC), offset 0x08C ........................................... 448
Register 18: PWM0 Load (PWM0LOAD), offset 0x050 ....................................................................... 449
Register 19: PWM1 Load (PWM1LOAD), offset 0x090 ....................................................................... 449
Register 20: PWM0 Counter (PWM0COUNT), offset 0x054 ................................................................ 450
Register 21: PWM1 Counter (PWM1COUNT), offset 0x094 ................................................................ 450
Register 22: PWM0 Compare A (PWM0CMPA), offset 0x058 ............................................................. 451
Register 23: PWM1 Compare A (PWM1CMPA), offset 0x098 ............................................................. 451
Register 24: PWM0 Compare B (PWM0CMPB), offset 0x05C ............................................................. 452
Register 25: PWM1 Compare B (PWM1CMPB), offset 0x09C ............................................................. 452
Register 26: PWM0 Generator A Control (PWM0GENA), offset 0x060 ................................................ 453
Register 27: PWM1 Generator A Control (PWM1GENA), offset 0x0A0 ................................................ 453
Register 28: PWM0 Generator B Control (PWM0GENB), offset 0x064 ................................................ 456
Register 29: PWM1 Generator B Control (PWM1GENB), offset 0x0A4 ................................................ 456
Register 30: PWM0 Dead-Band Control (PWM0DBCTL), offset 0x068 ................................................ 459
Register 31: PWM1 Dead-Band Control (PWM1DBCTL), offset 0x0A8 ................................................. 459
Register 32: PWM0 Dead-Band Rising-Edge Delay (PWM0DBRISE), offset 0x06C ............................. 460
Register 33: PWM1 Dead-Band Rising-Edge Delay (PWM1DBRISE), offset 0x0AC ............................. 460
Register 34: PWM0 Dead-Band Falling-Edge-Delay (PWM0DBFALL), offset 0x070 ............................. 461
Register 35: PWM1 Dead-Band Falling-Edge-Delay (PWM1DBFALL), offset 0x0B0 ............................. 461
Preliminary
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LM3S2620 Microcontroller
Quadrature Encoder Interface (QEI) .......................................................................................... 462
Register 1: QEI Control (QEICTL), offset 0x000 ................................................................................ 467
Register 2: QEI Status (QEISTAT), offset 0x004 ................................................................................ 469
Register 3: QEI Position (QEIPOS), offset 0x008 .............................................................................. 470
Register 4: QEI Maximum Position (QEIMAXPOS), offset 0x00C ....................................................... 471
Register 5: QEI Timer Load (QEILOAD), offset 0x010 ....................................................................... 472
Register 6: QEI Timer (QEITIME), offset 0x014 ................................................................................. 473
Register 7: QEI Velocity Counter (QEICOUNT), offset 0x018 ............................................................. 474
Register 8: QEI Velocity (QEISPEED), offset 0x01C .......................................................................... 475
Register 9: QEI Interrupt Enable (QEIINTEN), offset 0x020 ............................................................... 476
Register 10: QEI Raw Interrupt Status (QEIRIS), offset 0x024 ............................................................. 477
Register 11: QEI Interrupt Status and Clear (QEIISC), offset 0x028 ..................................................... 478
Preliminary
19November 30, 2007

About This Document

About This Document
This data sheet provides reference information for the LM3S2620 microcontroller, describing the functional blocks of the system-on-chip (SoC) device designed around the ARM® Cortex™-M3 core.

Audience

This manual is intended for system software developers, hardware designers, and application developers.

About This Manual

This document is organized into sections that correspond to each major feature.

Related Documents

The following documents are referenced by the data sheet, and available on the documentation CD or from the Luminary Micro web site at www.luminarymicro.com:
ARM® Cortex™-M3 Technical Reference Manual
ARM® CoreSight Technical Reference Manual
ARM® v7-M Architecture Application Level Reference Manual
The following related documents are also referenced:
IEEE Standard 1149.1-Test Access Port and Boundary-Scan Architecture
This documentation list was current as of publication date. Please check the Luminary Micro web site for additional documentation, including application notes and white papers.

Documentation Conventions

This document uses the conventions shown in Table 1 on page 20.
Table 1. Documentation Conventions
MeaningNotation
General Register Notation
REGISTER
offset 0xnnn
Register N
APB registers are indicated in uppercase bold. For example, PBORCTL is the Power-On and Brown-Out Reset Control register. If a register name contains a lowercase n, it represents more than one register. For example, SRCRn represents any (or all) of the three Software Reset Control registers: SRCR0, SRCR1 , and SRCR2.
A single bit in a register.bit
Two or more consecutive and related bits.bit field
A hexadecimal increment to a register's address, relative to that module's base address as specified in “Memory Map” on page 42.
Registers are numbered consecutively throughout the document to aid in referencing them. The register number has no meaning to software.
Preliminary
November 30, 200720
reserved
yy:xx
Register Bit/Field Types
R/W1C
W1C
Reset Value
Pin/Signal Notation
assert a signal
SIGNAL
SIGNAL
Numbers
X
0x
LM3S2620 Microcontroller
MeaningNotation
Register bits marked reserved are reserved for future use. In most cases, reserved bits are set to 0; however, user software should not rely on the value of a reserved bit. To provide software compatibility with future products, the value of a reserved bit should be preserved across a read-modify-write operation.
The range of register bits inclusive from xx to yy. For example, 31:15 means bits 15 through 31 in that register.
This value in the register bit diagram indicates whether software running on the controller can change the value of the bit field.
Software can read this field. The bit or field is cleared by hardware after reading the bit/field.RC
Software can read this field. Always write the chip reset value.RO
Software can read or write this field.R/W
Software can read or write this field. A write of a 0 to a W1C bit does not affect the bit value in the register. A write of a 1 clears the value of the bit in the register; the remaining bits remain unchanged.
This register type is primarily used for clearing interrupt status bits where the read operation provides the interrupt status and the write of the read value clears only the interrupts being reported at the time the register was read.
Software can write this field. A write of a 0 to a W1C bit does not affect the bit value in the register. A write of a 1 clears the value of the bit in the register; the remaining bits remain unchanged. A read of the register returns no meaningful data.
This register is typically used to clear the corresponding bit in an interrupt register.
Only a write by software is valid; a read of the register returns no meaningful data.WO
This value in the register bit diagram shows the bit/field value after any reset, unless noted.Register Bit/Field
Bit cleared to 0 on chip reset.0
Bit set to 1 on chip reset.1
Nondeterministic.-
Pin alternate function; a pin defaults to the signal without the brackets.[ ]
Refers to the physical connection on the package.pin
Refers to the electrical signal encoding of a pin.signal
Change the value of the signal from the logically False state to the logically True state. For active High signals, the asserted signal value is 1 (High); for active Low signals, the asserted signal value is 0 (Low). The active polarity (High or Low) is defined by the signal name (see SIGNAL and SIGNAL below).
Change the value of the signal from the logically True state to the logically False state.deassert a signal
Signal names are in uppercase and in the Courier font. An overbar on a signal name indicates that it is active Low. To assert SIGNAL is to drive it Low; to deassert SIGNAL is to drive it High.
Signal names are in uppercase and in the Courier font. An active High signal has no overbar. To assert SIGNAL is to drive it High; to deassert SIGNAL is to drive it Low.
An uppercase X indicates any of several values is allowed, where X can be any legal pattern. For example, a binary value of 0X00 can be either 0100 or 0000, a hex value of 0xX is 0x0 or 0x1, and so on.
Hexadecimal numbers have a prefix of 0x. For example, 0x00FF is the hexadecimal number FF.
All other numbers within register tables are assumed to be binary. Within conceptual information, binary numbers are indicated with a b suffix, for example, 1011b, and decimal numbers are written without a prefix or suffix.
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Architectural Overview

1 Architectural Overview
The Luminary Micro Stellaris®family of microcontrollers—the first ARM® Cortex™-M3 based controllers—brings high-performance 32-bit computing to cost-sensitive embedded microcontroller applications. These pioneering parts deliver customers 32-bit performance at a cost equivalent to legacy 8- and 16-bit devices, all in a package with a small footprint.
The Stellaris®family offers efficient performance and extensive integration, favorably positioning the device into cost-conscious applications requiring significant control-processing and connectivity capabilities. The Stellaris®LM3S1000 series extends the Stellaris®family with larger on-chip memories, enhanced power management, and expanded I/O and control capabilities. The Stellaris LM3S2000 series, designed for Controller Area Network (CAN) applications, extends the Stellaris family with Bosch CAN networking technology, the golden standard in short-haul industrial networks. The Stellaris®LM3S2000 series also marks the first integration of CAN capabilities with the revolutionary Cortex-M3 core. The Stellaris®LM3S6000 series combines both a 10/100 Ethernet Media Access Control (MAC) and Physical (PHY) layer, marking the first time that integrated connectivity is available with an ARM Cortex-M3 MCU and the only integrated 10/100 Ethernet MAC and PHY available in an ARM architecture MCU. The Stellaris®LM3S8000 series combines Bosch Controller Area Network technology with both a 10/100 Ethernet Media Access Control (MAC) and Physical (PHY) layer.
®
The LM3S2620 microcontroller is targeted for industrial applications, including remote monitoring, electronic point-of-sale machines, test and measurement equipment, network appliances and switches, factory automation, HVAC and building control, gaming equipment, motion control, medical instrumentation, and fire and security.
For applications requiring extreme conservation of power, the LM3S2620 microcontroller features a Battery-backed Hibernation module to efficiently power down the LM3S2620 to a low-power state during extended periods of inactivity. With a power-up/power-down sequencer, a continuous time counter (RTC), a pair of match registers, an APB interface to the system bus, and dedicated non-volatile memory, the Hibernation module positions the LM3S2620 microcontroller perfectly for battery applications.
In addition, the LM3S2620 microcontroller offers the advantages of ARM's widely available development tools, System-on-Chip (SoC) infrastructure IP applications, and a large user community. Additionally, the microcontroller uses ARM's Thumb®-compatible Thumb-2 instruction set to reduce memory requirements and, thereby, cost. Finally, the LM3S2620 microcontroller is code-compatible to all members of the extensive Stellaris®family; providing flexibility to fit our customers' precise needs.
Luminary Micro offers a complete solution to get to market quickly, with evaluation and development boards, white papers and application notes, an easy-to-use peripheral driver library, and a strong support, sales, and distributor network.

1.1 Product Features

The LM3S2620 microcontroller includes the following product features:
32-Bit RISC Performance
32-bit ARM® Cortex™-M3 v7M architecture optimized for small-footprint embedded
applications
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LM3S2620 Microcontroller
System timer (SysTick), providing a simple, 24-bit clear-on-write, decrementing, wrap-on-zero
counter with a flexible control mechanism
Thumb®-compatible Thumb-2-only instruction set processor core for high code density
25-MHz operation
Hardware-division and single-cycle-multiplication
Integrated Nested Vectored Interrupt Controller (NVIC) providing deterministic interrupt
handling
32 interrupts with eight priority levels
Memory protection unit (MPU), providing a privileged mode for protected operating system
functionality
Unaligned data access, enabling data to be efficiently packed into memory
Atomic bit manipulation (bit-banding), delivering maximum memory utilization and streamlined
peripheral control
Internal Memory
128 KB single-cycle flash
User-managed flash block protection on a 2-KB block basis
User-managed flash data programming
User-defined and managed flash-protection block
32 KB single-cycle SRAM
General-Purpose Timers
Four General-Purpose Timer Modules (GPTM), each of which provides two 16-bit timers.
Each GPTM can be configured to operate independently:
As a single 32-bit timer
As one 32-bit Real-Time Clock (RTC) to event capture
For Pulse Width Modulation (PWM)
32-bit Timer modes
Programmable one-shot timer
Programmable periodic timer
Real-Time Clock when using an external 32.768-KHz clock as the input
User-enabled stalling in periodic and one-shot mode when the controller asserts the CPU Halt flag during debug
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Architectural Overview
16-bit Timer modes
General-purpose timer function with an 8-bit prescaler
Programmable one-shot timer
Programmable periodic timer
User-enabled stalling when the controller asserts CPU Halt flag during debug
16-bit Input Capture modes
Input edge count capture
Input edge time capture
16-bit PWM mode
Simple PWM mode with software-programmable output inversion of the PWM signal
ARM FiRM-compliant Watchdog Timer
32-bit down counter with a programmable load register
Separate watchdog clock with an enable
Programmable interrupt generation logic with interrupt masking
Lock register protection from runaway software
Reset generation logic with an enable/disable
User-enabled stalling when the controller asserts the CPU Halt flag during debug
Controller Area Network (CAN)
Supports CAN protocol version 2.0 part A/B
Bit rates up to 1Mb/s
32 message objects, each with its own identifier mask
Maskable interrupt
Disable automatic retransmission mode for TTCAN
Programmable loop-back mode for self-test operation
Synchronous Serial Interface (SSI)
Master or slave operation
Programmable clock bit rate and prescale
Separate transmit and receive FIFOs, 16 bits wide, 8 locations deep
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LM3S2620 Microcontroller
Programmable interface operation for Freescale SPI, MICROWIRE, or Texas Instruments
synchronous serial interfaces
Programmable data frame size from 4 to 16 bits
Internal loopback test mode for diagnostic/debug testing
UART
Fully programmable 16C550-type UART with IrDA support
Separate 16x8 transmit (TX) and 16x12 receive (RX) FIFOs to reduce CPU interrupt service
loading
Programmable baud-rate generator with fractional divider
Programmable FIFO length, including 1-byte deep operation providing conventional
double-buffered interface
FIFO trigger levels of 1/8, 1/4, 1/2, 3/4, and 7/8
Standard asynchronous communication bits for start, stop, and parity
False-start-bit detection
Line-break generation and detection
Analog Comparators
Three independent integrated analog comparators
Configurable for output to: drive an output pin or generate an interrupt
Compare external pin input to external pin input or to internal programmable voltage reference
I2C
Master and slave receive and transmit operation with transmission speed up to 100 Kbps in
Standard mode and 400 Kbps in Fast mode
Interrupt generation
Master with arbitration and clock synchronization, multimaster support, and 7-bit addressing
mode
PWM
Two PWM generator blocks, each with one 16-bit counter, two comparators, a PWM generator,
and a dead-band generator
One 16-bit counter
Runs in Down or Up/Down mode
Output frequency controlled by a 16-bit load value
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Architectural Overview
Load value updates can be synchronized
Produces output signals at zero and load value
Two PWM comparators
Comparator value updates can be synchronized
Produces output signals on match
PWM generator
Output PWM signal is constructed based on actions taken as a result of the counter and
Produces two independent PWM signals
Dead-band generator
Produces two PWM signals with programmable dead-band delays suitable for driving a
PWM comparator output signals
half-H bridge
Can be bypassed, leaving input PWM signals unmodified
Flexible output control block with PWM output enable of each PWM signal
PWM output enable of each PWM signal
Optional output inversion of each PWM signal (polarity control)
Optional fault handling for each PWM signal
Synchronization of timers in the PWM generator blocks
Synchronization of timer/comparator updates across the PWM generator blocks
Interrupt status summary of the PWM generator blocks
QEI
Hardware position integrator tracks the encoder position
Velocity capture using built-in timer
Interrupt generation on index pulse, velocity-timer expiration, direction change, and quadrature
error detection
GPIOs
12-52 GPIOs, depending on configuration
5-V-tolerant input/outputs
Programmable interrupt generation as either edge-triggered or level-sensitive
Bit masking in both read and write operations through address lines
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LM3S2620 Microcontroller
Programmable control for GPIO pad configuration:
Weak pull-up or pull-down resistors
2-mA, 4-mA, and 8-mA pad drive
Slew rate control for the 8-mA drive
Open drain enables
Digital input enables
Power
On-chip Low Drop-Out (LDO) voltage regulator, with programmable output user-adjustable
from 2.25 V to 2.75 V
Hibernation module handles the power-up/down 3.3 V sequencing and control for the core
digital logic and analog circuits
Low-power options on controller: Sleep and Deep-sleep modes
Low-power options for peripherals: software controls shutdown of individual peripherals
User-enabled LDO unregulated voltage detection and automatic reset
3.3-V supply brown-out detection and reporting via interrupt or reset
Flexible Reset Sources
Power-on reset (POR)
Reset pin assertion
Brown-out (BOR) detector alerts to system power drops
Software reset
Watchdog timer reset
Internal low drop-out (LDO) regulator output goes unregulated
Additional Features
Six reset sources
Programmable clock source control
Clock gating to individual peripherals for power savings
IEEE 1149.1-1990 compliant Test Access Port (TAP) controller
Debug access via JTAG and Serial Wire interfaces
Full JTAG boundary scan
Industrial-range 100-pin RoHS-compliant LQFP package
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Architectural Overview

1.2 Target Applications

Remote monitoring
Electronic point-of-sale (POS) machines
Test and measurement equipment
Network appliances and switches
Factory automation
HVAC and building control
Gaming equipment
Motion control
Medical instrumentation
Fire and security
Power and energy
Transportation

1.3 High-Level Block Diagram

Figure 1-1 on page 29 represents the full set of features in the Stellaris®2000 series of devices; not all features may be available on the LM3S2620 microcontroller.
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November 30, 200728
Figure 1-1. Stellaris®2000 Series High-Level Block Diagram
LM3S2620 Microcontroller

1.4 Functional Overview

The following sections provide an overview of the features of the LM3S2620 microcontroller. The page number in parenthesis indicates where that feature is discussed in detail. Ordering and support information can be found in “Ordering and Contact Information” on page 532.
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Architectural Overview

1.4.1 ARM Cortex™-M3

1.4.1.1 Processor Core (see page 36)
All members of the Stellaris®product family, including the LM3S2620 microcontroller, are designed around an ARM Cortex™-M3 processor core. The ARM Cortex-M3 processor provides the core for a high-performance, low-cost platform that meets the needs of minimal memory implementation, reduced pin count, and low-power consumption, while delivering outstanding computational performance and exceptional system response to interrupts.
“ARM Cortex-M3 Processor Core” on page 36 provides an overview of the ARM core; the core is detailed in the ARM® Cortex™-M3 Technical Reference Manual.
1.4.1.2 System Timer (SysTick)
Cortex-M3 includes an integrated system timer, SysTick. SysTick provides a simple, 24-bit clear-on-write, decrementing, wrap-on-zero counter with a flexible control mechanism. The counter can be used in several different ways, for example:
An RTOS tick timer which fires at a programmable rate (for example, 100 Hz) and invokes a
SysTick routine.
A high-speed alarm timer using the system clock.
A variable rate alarm or signal timer—the duration is range-dependent on the reference clock
used and the dynamic range of the counter.
A simple counter. Software can use this to measure time to completion and time used.
An internal clock source control based on missing/meeting durations. The COUNTFLAG bit-field
in the control and status register can be used to determine if an action completed within a set duration, as part of a dynamic clock management control loop.
1.4.1.3 Nested Vectored Interrupt Controller (NVIC)
The LM3S2620 controller includes the ARM Nested Vectored Interrupt Controller (NVIC) on the ARM Cortex-M3 core. The NVIC and Cortex-M3 prioritize and handle all exceptions. All exceptions are handled in Handler Mode. The processor state is automatically stored to the stack on an exception, and automatically restored from the stack at the end of the Interrupt Service Routine (ISR). The vector is fetched in parallel to the state saving, which enables efficient interrupt entry. The processor supports tail-chaining, which enables back-to-back interrupts to be performed without the overhead of state saving and restoration. Software can set eight priority levels on 7 exceptions (system handlers) and 32 interrupts.
“Interrupts” on page 44 provides an overview of the NVIC controller and the interrupt map. Exceptions and interrupts are detailed in the ARM® Cortex™-M3 Technical Reference Manual.

1.4.2 Motor Control Peripherals

To enhance motor control, the LM3S2620 controller features Pulse Width Modulation (PWM) outputs and the Quadrature Encoder Interface (QEI).
1.4.2.1 PWM
Pulse width modulation (PWM) is a powerful technique for digitally encoding analog signal levels. High-resolution counters are used to generate a square wave, and the duty cycle of the square
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