SPRS737C August 2011 – April 2014 TMS320C5532 , TMS320C5533 , TMS320C5534 , TMS320C5535
PRODUCTION DATA.
デバイスごとのパッケージ図は、PDF版データシートをご参照ください。
The fixed-point digital signal processors (DSP) are based on the C55x CPU 3.3 generation processor core. The C55x DSP architecture achieves high performance and low power through increased parallelism and total focus on power savings. The CPU supports an internal bus structure that is composed of one program bus, three data read buses (one 32-bit data read bus and two 16-bit data read buses), two 16-bit data write buses, and additional buses dedicated to peripheral and DMA activity. These buses provide the ability to perform up to four data reads and two data writes in a single cycle. Each DMA controller can perform one 32-bit data transfer per cycle, in parallel and independent of the CPU activity.
The C55x CPU provides two multiply-accumulate (MAC) units, each capable of 17-bit x 17-bit multiplication in a single cycle. A central 40-bit arithmetic and logic unit (ALU) is supported by an additional 16-bit ALU. Use of the ALUs is under instruction set control, providing the ability to optimize parallel activity and power consumption. These resources are managed in the Address Unit (AU) and Data Unit (DU) of the C55x CPU.
The C55x DSP generation supports a variable byte width instruction set for improved code density. The Instruction Unit (IU) performs 32-bit program fetches from internal or external memory, stores them in a 128-byte Instruction Buffer Queue, and queues instructions for the Program Unit (PU). The Program Unit decodes the instructions, directs tasks to AU and DU resources, and manages the fully protected pipeline. Predictive branching capability avoids pipeline flushes on execution of conditional instruction calls.
For more detailed information on the CPU, see the TMS320C55x CPU 3.0 CPU Reference Guide (literature number SWPU073).
The DARAM is located in the byte address range 000000h − 00FFFFh and is composed of eight blocks of 4K words each (see Table 6-1). Each DARAM block can perform two accesses per cycle (two reads, two writes, or a read and a write). The DARAM can be accessed by the internal program, data, or DMA buses.
CPU BYTE ADDRESS RANGE |
DMA CONTROLLER BYTE ADDRESS RANGE |
MEMORY BLOCK |
---|---|---|
000000h – 001FFFh | 0001 0000h – 0001 1FFFh | DARAM 0(1) |
002000h – 003FFFh | 0001 2000h – 0001 3FFFh | DARAM 1 |
004000h – 005FFFh | 0001 4000h – 0001 5FFFh | DARAM 2 |
006000h – 007FFFh | 0001 6000h – 0001 7FFFh | DARAM 3 |
008000h – 009FFFh | 0001 8000h – 0001 9FFFh | DARAM 4 |
00A000h – 00BFFFh | 0001 A000h – 0001 BFFFh | DARAM 5 |
00C000h – 00DFFFh | 0001 C000h – 0001 DFFFh | DARAM 6 |
00E000h – 00FFFFh | 0001 E000h – 0001 FFFFh | DARAM 7 |
The zero-wait-state ROM is located at the byte address range FE0000h – FFFFFFh. The ROM is composed of four 16K-word blocks, for a total of 128K bytes of ROM. The ROM address space can be mapped by software to the internal ROM.
The standard device includes a bootloader program resident in the ROM.
When the MPNMC bit field of the ST3 status register is cleared (by default), the byte address range FE0000h – FFFFFFh is reserved for the on-chip ROM. When the MPNMC bit field of the ST3 status register is set through software, the on-chip ROM is disabled and not present in the memory map, and byte address range FE0000h – FFFFFFh is unmapped. A hardware reset always clears the MPNMC bit, so it is not possible to disable the ROM at reset. However, the software reset instruction does not affect the MPNMC bit. The ROM can be accessed by the program and data buses. Each on-chip ROM block is a one cycle per word access memory.
Section 6.2.1.3.1 explains the SARAM blocks for the C5535. Section 6.2.1.3.2 explains the SARAM blocks for the C5534. Section 6.2.1.3.3 explains the SARAM blocks for the C5533. The C5532 has no SARAM blocks.
The SARAM is located at the byte address range 010000h – 04FFFFh and is composed of 32 blocks of 4K words each (see Table 6-2). Each SARAM block can perform one access per cycle (one read or one write). SARAM can be accessed by the internal program, data, or DMA buses.
SARAM is also accessed by the USB and LCD DMA buses.
CPU BYTE ADDRESS RANGE |
DMA and USB CONTROLLER BYTE ADDRESS RANGE |
MEMORY BLOCK |
---|---|---|
010000h − 011FFFh | 0009 0000h – 0009 1FFFh | SARAM 0 |
012000h − 013FFFh | 0009 2000h – 0009 3FFFh | SARAM 1 |
014000h − 015FFFh | 0009 4000h – 0009 5FFFh | SARAM 2 |
016000h − 017FFFh | 0009 6000h – 0009 7FFFh | SARAM 3 |
018000h − 019FFFh | 0009 8000h – 0009 9FFFh | SARAM 4 |
01A000h − 01BFFFh | 0009 A000h – 0009 BFFFh | SARAM 5 |
01C000h − 01DFFFh | 0009 C000h – 0009 DFFFh | SARAM 6 |
01E000h − 01FFFFh | 0009 E000h – 0009 FFFFh | SARAM 7 |
020000h − 021FFFh | 000A 0000h – 000A 1FFFh | SARAM 8 |
022000h − 023FFFh | 000A 2000h – 000A 3FFFh | SARAM 9 |
024000h − 025FFFh | 000A 4000h – 000A 5FFFh | SARAM 10 |
026000h − 027FFFh | 000A 6000h – 000A 7FFFh | SARAM 11 |
028000h − 029FFFh | 000A 8000h – 000A 9FFFh | SARAM 12 |
02A000h − 02BFFFh | 000A A000h – 000A BFFFh | SARAM 13 |
02C000h − 02DFFFh | 000A C000h – 000A DFFFh | SARAM 14 |
02E000h − 02FFFFh | 000A E000h – 000A FFFFh | SARAM 15 |
030000h − 031FFFh | 000B 0000h – 000B 1FFFh | SARAM 16 |
032000h − 033FFFh | 000B 2000h – 000B 3FFFh | SARAM 17 |
034000h − 035FFFh | 000B 4000h – 000B 5FFFh | SARAM 18 |
036000h − 037FFFh | 000B 6000h – 000B 7FFFh | SARAM 19 |
038000h − 039FFFh | 000B 8000h – 000B 9FFFh | SARAM 20 |
03A000h − 03BFFFh | 000B A000h – 000B BFFFh | SARAM 21 |
03C000h − 03DFFFh | 000B C000h – 000B DFFFh | SARAM 22 |
03E000h − 03FFFFh | 000B E000h – 000B FFFFh | SARAM 23 |
040000h – 041FFFh | 000C 0000h – 000C 1FFFh | SARAM 24 |
042000h – 043FFFh | 000C 2000h – 000C 3FFFh | SARAM 25 |
044000h – 045FFFh | 000C 4000h – 000C 5FFFh | SARAM 26 |
046000h – 047FFFh | 000C 6000h – 000C 7FFFh | SARAM 27 |
048000h – 049FFFh | 000C 8000h – 000C 9FFFh | SARAM 28 |
04A000h – 04BFFFh | 000C A000h – 000C BFFFh | SARAM 29 |
04C000h – 04DFFFh | 000C C000h – 000C DFFFh | SARAM 30 |
04E000h – 04FFFFh | 000C E000h – 000C FFFFh | SARAM 31(1) |
The SARAM is located at the byte address range 010000h – 03FFFFh and is composed of 24 blocks of 4K words each (see Table 6-3). Each SARAM block can perform one access per cycle (one read or one write). SARAM can be accessed by the internal program, data, or DMA buses. SARAM is also accessed by the USB bus.
CPU BYTE ADDRESS RANGE |
DMA and USB CONTROLLER BYTE ADDRESS RANGE |
MEMORY BLOCK |
---|---|---|
010000h − 011FFFh | 0009 0000h – 0009 1FFFh | SARAM 0 |
012000h − 013FFFh | 0009 2000h – 0009 3FFFh | SARAM 1 |
014000h − 015FFFh | 0009 4000h – 0009 5FFFh | SARAM 2 |
016000h − 017FFFh | 0009 6000h – 0009 7FFFh | SARAM 3 |
018000h − 019FFFh | 0009 8000h – 0009 9FFFh | SARAM 4 |
01A000h − 01BFFFh | 0009 A000h – 0009 BFFFh | SARAM 5 |
01C000h − 01DFFFh | 0009 C000h – 0009 DFFFh | SARAM 6 |
01E000h − 01FFFFh | 0009 E000h – 0009 FFFFh | SARAM 7 |
020000h − 021FFFh | 000A 0000h – 000A 1FFFh | SARAM 8 |
022000h − 023FFFh | 000A 2000h – 000A 3FFFh | SARAM 9 |
024000h − 025FFFh | 000A 4000h – 000A 5FFFh | SARAM 10 |
026000h − 027FFFh | 000A 6000h – 000A 7FFFh | SARAM 11 |
028000h − 029FFFh | 000A 8000h – 000A 9FFFh | SARAM 12 |
02A000h − 02BFFFh | 000A A000h – 000A BFFFh | SARAM 13 |
02C000h − 02DFFFh | 000A C000h – 000A DFFFh | SARAM 14 |
02E000h − 02FFFFh | 000A E000h – 000A FFFFh | SARAM 15 |
030000h − 031FFFh | 000B 0000h – 000B 1FFFh | SARAM 16 |
032000h − 033FFFh | 000B 2000h – 000B 3FFFh | SARAM 17 |
034000h − 035FFFh | 000B 4000h – 000B 5FFFh | SARAM 18 |
036000h − 037FFFh | 000B 6000h – 000B 7FFFh | SARAM 19 |
038000h − 039FFFh | 000B 8000h – 000B 9FFFh | SARAM 20 |
03A000h − 03BFFFh | 000B A000h – 000B BFFFh | SARAM 21 |
03C000h − 03DFFFh | 000B C000h – 000B DFFFh | SARAM 22 |
03E000h − 03FFFFh | 000B E000h – 000B FFFFh | SARAM 23 |
The SARAM is located at the byte address range 010000h – 01FFFFh and is composed of 8 blocks of 4K words each (see Table 6-4). Each SARAM block can perform one access per cycle (one read or one write). SARAM can be accessed by the internal program, data, or DMA buses. SARAM is also accessed by the USB bus.
CPU BYTE ADDRESS RANGE |
DMA and USB CONTROLLER BYTE ADDRESS RANGE |
MEMORY BLOCK |
---|---|---|
010000h − 011FFFh | 0009 0000h – 0009 1FFFh | SARAM 0 |
012000h − 013FFFh | 0009 2000h – 0009 3FFFh | SARAM 1 |
014000h − 015FFFh | 0009 4000h – 0009 5FFFh | SARAM 2 |
016000h − 017FFFh | 0009 6000h – 0009 7FFFh | SARAM 3 |
018000h − 019FFFh | 0009 8000h – 0009 9FFFh | SARAM 4 |
01A000h − 01BFFFh | 0009 A000h – 0009 BFFFh | SARAM 5 |
01C000h − 01DFFFh | 0009 C000h – 0009 DFFFh | SARAM 6 |
01E000h − 01FFFFh | 0009 E000h – 0009 FFFFh | SARAM 7 |
Each device includes a 64K byte I/O space for the memory-mapped registers of the DSP peripherals and system registers used for idle control, status monitoring and system configuration. I/O space is separate from program and memory space and is accessed with separate instruction opcodes or via the DMAs.
Table 6-5, Table 6-6 and Table 6-7 list the memory-mapped registers of each device. Note that not all addresses in the 64K byte I/O space are used; these addresses must be treated as reserved and not accessed by the CPU nor DMA. For the expanded tables of each peripheral, see , Peripheral Information and Electrical Specifications of this document.
Some DMA controllers have access to the I/O-Space memory-mapped registers of the following peripherals registers: I2C, UART, I2S, SD, USB, and SAR ADC.
Before accessing any peripheral memory-mapped register, make sure the peripheral being accessed is not held in reset via the Peripheral Reset Control Register (PRCR) and its internal clock is enabled via the Peripheral Clock Gating Control Registers (PCGCR1 and PCGCR2).
WORD ADDRESS | PERIPHERAL |
---|---|
0x0000 – 0x0004 | Idle Control |
0x0005 – 0x000D through 0x0803 – 0x0BFF | Reserved |
0x0C00 – 0x0C7F | DMA0 |
0x0C80 – 0x0CFF | Reserved |
0x0D00 – 0x0D7F | DMA1 |
0x0D80 – 0x0DFF | Reserved |
0x0E00 – 0x0E7F | DMA2 |
0x0E80 – 0x0EFF | Reserved |
0x0F00 – 0x0F7F | DMA3 |
0x0F80 – 0x17FF | Reserved |
0x1800 – 0x181F | Timer0 |
0x1820 – 0x183F | Reserved |
0x1840 – 0x185F | Timer1 |
0x1860 – 0x187F | Reserved |
0x1880 – 0x189F | Timer2 |
0x1900 – 0x197F | RTC |
0x1980 – 0x19FF | Reserved |
0x1A00 – 0x1A6C | I2C |
0x1A6D – 0x1AFF | Reserved |
0x1B00 – 0x1B1F | UART |
0x1B80 – 0x1BFF | Reserved |
0x1C00 – 0x1CFF | System Control |
0x1D00 – 0x1FFF through 0x2600 – 0x27FF | Reserved |
0x2800 – 0x2840 | I2S0 |
0x2900 – 0x2940 | I2S1 |
0x2A00 – 0x2A40 | I2S2 |
0x2B00 – 0x2B40 | I2S3 |
0x2C41 – 0x2DFF | Reserved |
0x2E00 – 0x2E40 | LCD |
0x2E41 – 0x2FFF | Reserved |
0x3000 – 0x300F | SPI |
0x3010 – 0x39FF | Reserved |
0x3A00 – 0x3A7F | SD0 |
0x3A80 – 0x3AFF | Reserved |
0x3B00 – 0x3B7F | SD1 |
0x3B80 – 0x6FFF | Reserved |
0x7000 – 0x70FF | SAR and Analog Control Registers |
0x7100 – 0x7FFF | Reserved |
0x8000 – 0xFFFF | USB |
WORD ADDRESS | PERIPHERAL |
---|---|
0x0000 – 0x0004 | Idle Control |
0x0005 – 0x000D through 0x0803 – 0x0BFF | Reserved |
0x0C00 – 0x0C7F | DMA0 |
0x0C80 – 0x0CFF | Reserved |
0x0D00 – 0x0D7F | DMA1 |
0x0D80 – 0x0DFF | Reserved |
0x0E00 – 0x0E7F | DMA2 |
0x0E80 – 0x0EFF | Reserved |
0x0F00 – 0x0F7F | DMA3 |
0x0F80 – 0x0FFF | Reserved |
0x1000 – 0x10DD | Reserved |
0x10EE – 0x10FF through 0x1300 – 0x17FF | Reserved |
0x1800 – 0x181F | Timer0 |
0x1820 – 0x183F | Reserved |
0x1840 – 0x185F | Timer1 |
0x1860 – 0x187F | Reserved |
0x1880 – 0x189F | Timer2 |
0x1900 – 0x197F | RTC |
0x1980 – 0x19FF | Reserved |
0x1A00 – 0x1A6C | I2C |
0x1A6D – 0x1AFF | Reserved |
0x1B00 – 0x1B1F | UART |
0x1B80 – 0x1BFF | Reserved |
0x1C00 – 0x1CFF | System Control |
0x1D00 – 0x1FFF through 0x2600 – 0x27FF | Reserved |
0x2800 – 0x2840 | I2S0 |
0x2900 – 0x2940 | I2S1 |
0x2A00 – 0x2A40 | I2S2 |
0x2B00 – 0x2B40 | I2S3 |
0x2C41 – 0x2FFF | Reserved |
0x3000 – 0x300F | SPI |
0x3010 – 0x39FF | Reserved |
0x3A00 – 0x3A7F | SD0 |
0x3A80 – 0x3AFF | Reserved |
0x3B00 – 0x3B7F | SD1 |
0x3B80 – 0x7FFF | Reserved |
0x8000 – 0xFFFF | USB |
WORD ADDRESS | PERIPHERAL |
---|---|
0x0000 – 0x0004 | Idle Control |
0x0005 – 0x000D through 0x0803 – 0x0BFF | Reserved |
0x0C00 – 0x0C7F | DMA0 |
0x0C80 – 0x0CFF | Reserved |
0x0D00 – 0x0D7F | DMA1 |
0x0D80 – 0x0DFF | Reserved |
0x0E00 – 0x0E7F | DMA2 |
0x0E80 – 0x0EFF | Reserved |
0x0F00 – 0x0F7F | DMA3 |
0x0F80 – 0x0FFF | Reserved |
0x1000 – 0x10DD | Reserved |
0x10EE – 0x10FF through 0x1300 – 0x17FF | Reserved |
0x1800 – 0x181F | Timer0 |
0x1820 – 0x183F | Reserved |
0x1840 – 0x185F | Timer1 |
0x1860 – 0x187F | Reserved |
0x1880 – 0x189F | Timer2 |
0x1900 – 0x197F | RTC |
0x1980 – 0x19FF | Reserved |
0x1A00 – 0x1A6C | I2C |
0x1A6D – 0x1AFF | Reserved |
0x1B00 – 0x1B1F | UART |
0x1B80 – 0x1BFF | Reserved |
0x1C00 – 0x1CFF | System Control |
0x1D00 – 0x1FFF through 0x2600 – 0x27FF | Reserved |
0x2800 – 0x2840 | I2S0 |
0x2900 – 0x2940 | I2S1 |
0x2A00 – 0x2A40 | I2S2 |
0x2B00 – 0x2B40 | I2S3 |
0x2C41 – 0x2DFF through 0x2E41 - 0x2FFF | Reserved |
0x3000 – 0x300F | SPI |
0x3010 – 0x39FF | Reserved |
0x3A00 – 0x3A7F | SD0 |
0x3A80 – 0x3AFF | Reserved |
0x3B00 – 0x3B7F | SD1 |
0x3B80 – 0xFFFF | Reserved |
The on-chip, dual-access RAM allows two accesses to a given block during the same cycle. There are 8 blocks of 8K bytes of dual-access RAM. The on-chip, single-access RAM allows one access to a given block per cycle. In addition, there are 32 blocks of 8K bytes of single-access RAM.
The DSP memory is accessible by different master modules within the DSP, including the C55x CPU and the four DMA controllers, LCD, and USB's CDMA (see Figure 6-1).
The external parallel port interface includes a 16-bit general purpose I/O that can be individually programmed as input or output with interrupt capability. Control of the general purpose I/O is maintained through a set of I/O memory-mapped registers shown in Table 6-8.
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
1C06h | IODIR1 | GPIO Direction Register 1 |
1C07h | IODIR2 | GPIO Direction Register 2 |
1C08h | IOINDATA1 | GPIO Data In Register 1 |
1C09h | IOINDATA2 | GPIO Data In Register 2 |
1C0Ah | IODATAOUT1 | GPIO Data Out Register 1 |
1C0Bh | IODATAOUT2 | GPIO Data Out Register 2 |
1C0Ch | IOINTEDG1 | GPIO Interrupt Edge Trigger Enable Register 1 |
1C0Dh | IOINTEDG2 | GPIO Interrupt Edge Trigger Enable Register 2 |
1C0Eh | IOINTEN1 | GPIO Interrupt Enable Register 1 |
1C0Fh | IOINTEN2 | GPIO Interrupt Enable Register 2 |
1C10h | IOINTFLG1 | GPIO Interrupt Flag Register 1 |
1C11h | IOINTFLG2 | GPIO Interrupt Flag Register 2 |
Table 6-9 shows the Inter-Integrated Circuit (I2C) registers.
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
1A00h | ICOAR | I2C Own Address Register |
1A04h | ICIMR | I2C Interrupt Mask Register |
1A08h | ICSTR | I2C Interrupt Status Register |
1A0Ch | ICCLKL | I2C Clock Low-Time Divider Register |
1A10h | ICCLKH | I2C Clock High-Time Divider Register |
1A14h | ICCNT | I2C Data Count Register |
1A18h | ICDRR | I2C Data Receive Register |
1A1Ch | ICSAR | I2C Slave Address Register |
1A20h | ICDXR | I2C Data Transmit Register |
1A24h | ICMDR | I2C Mode Register |
1A28h | ICIVR | I2C Interrupt Vector Register |
1A2Ch | ICEMDR | I2C Extended Mode Register |
1A30h | ICPSC | I2C Prescaler Register |
1A34h | ICPID1 | I2C Peripheral Identification Register 1 |
1A38h | ICPID2 | I2C Peripheral Identification Register 2 |
Table 6-10 through Table 6-13 show the I2S0 through I2S3 registers.
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
2800h | I2S0SCTRL | I2S0 Serializer Control Register |
2804h | I2S0SRATE | I2S0 Sample Rate Generator Register |
2808h | I2S0TXLT0 | I2S0 Transmit Left Data 0 Register |
2809h | I2S0TXLT1 | I2S0 Transmit Left Data 1 Register |
280Ch | I2S0TXRT0 | I2S0 Transmit Right Data 0 Register |
280Dh | I2S0TXRT1 | I2S0 Transmit Right Data 1 Register |
2810h | I2S0INTFL | I2S0 Interrupt Flag Register |
2814h | I2S0INTMASK | I2S0 Interrupt Mask Register |
2828h | I2S0RXLT0 | I2S0 Receive Left Data 0 Register |
2829h | I2S0RXLT1 | I2S0 Receive Left Data 1 Register |
282Ch | I2S0RXRT0 | I2S0 Receive Right Data 0 Register |
282Dh | I2S0RXRT1 | I2S0 Receive Right Data 1 Register |
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
2900h | I2S1SCTRL | I2S1 Serializer Control Register |
2904h | I2S1SRATE | I2S1 Sample Rate Generator Register |
2908h | I2S1TXLT0 | I2S1 Transmit Left Data 0 Register |
2909h | I2S1TXLT1 | I2S1 Transmit Left Data 1 Register |
290Ch | I2S1TXRT0 | I2S1 Transmit Right Data 0 Register |
290Dh | I2S1TXRT1 | I2S1 Transmit Right Data 1 Register |
2910h | I2S1INTFL | I2S1 Interrupt Flag Register |
2914h | I2S1INTMASK | I2S1 Interrupt Mask Register |
2928h | I2S1RXLT0 | I2S1 Receive Left Data 0 Register |
2929h | I2S1RXLT1 | I2S1 Receive Left Data 1 Register |
292Ch | I2S1RXRT0 | I2S1 Receive Right Data 0 Register |
292Dh | I2S1RXRT1 | I2S1 Receive Right Data 1 Register |
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
2A00h | I2S2SCTRL | I2S2 Serializer Control Register |
2A04h | I2S2SRATE | I2S2 Sample Rate Generator Register |
2A08h | I2S2TXLT0 | I2S2 Transmit Left Data 0 Register |
2A09h | I2S2TXLT1 | I2S2 Transmit Left Data 1 Register |
2A0Ch | I2S2TXRT0 | I2S2 Transmit Right Data 0 Register |
2A0Dh | I2S2TXRT1 | I2S2 Transmit Right Data 1 Register |
2A10h | I2S2INTFL | I2S2 Interrupt Flag Register |
2A14h | I2S2INTMASK | I2S2 Interrupt Mask Register |
2A28h | I2S2RXLT0 | I2S2 Receive Left Data 0 Register |
2A29h | I2S2RXLT1 | I2S2 Receive Left Data 1 Register |
2A2Ch | I2S2RXRT0 | I2S2 Receive Right Data 0 Register |
2A2Dh | I2S2RXRT1 | I2S2 Receive Right Data 1 Register |
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
2B00h | I2S3SCTRL | I2S3 Serializer Control Register |
2B04h | I2S3SRATE | I2S3 Sample Rate Generator Register |
2B08h | I2S3TXLT0 | I2S3 Transmit Left Data 0 Register |
2B09h | I2S3TXLT1 | I2S3 Transmit Left Data 1 Register |
2B0Ch | I2S3TXRT0 | I2S3 Transmit Right Data 0 Register |
2B0Dh | I2S3TXRT1 | I2S3 Transmit Right Data 1 Register |
2B10h | I2S3INTFL | I2S3 Interrupt Flag Register |
2B14h | I2S3INTMASK | I2S3 Interrupt Mask Register |
2B28h | I2S3RXLT0 | I2S3 Receive Left Data 0 Register |
2B29h | I2S3RXLT1 | I2S3 Receive Left Data 1 Register |
2B2Ch | I2S3RXRT0 | I2S3 Receive Right Data 0 Register |
2B2Dh | I2S3RXRT1 | I2S3 Receive Right Data 1 Register |
Table 6-14 shows the LCDC peripheral registers.
CPU WORD ADDRESS | ACRONYM | REGISTER DESCRIPTION |
---|---|---|
2E00h | LCDREVMIN | LCD Minor Revision Register |
2E01h | LCDREVMAJ | LCD Major Revision Register |
2E04h | LCDCR | LCD Control Register |
2E08h | LCDSR | LCD Status Register |
2E0Ch | LCDLIDDCR | LCD LIDD Control Register |
2E10h | LCDLIDDCS0CONFIG0 | LCD LIDD CS0 Configuration Register 0 |
2E11h | LCDLIDDCS0CONFIG1 | LCD LIDD CS0 Configuration Register 1 |
2E14h | LCDLIDDCS0ADDR | LCD LIDD CS0 Address Read and Write Register |
2E18h | LCDLIDDCS0DATA | LCD LIDD CS0 Data Read and Write Register |
2E1Ch | LCDLIDDCS1CONFIG0 | LCD LIDD CS1 Configuration Register 0 |
2E1Dh | LCDLIDDCS1CONFIG1 | LCD LIDD CS1 Configuration Register 1 |
2E20h | LCDLIDDCS1ADDR | LCD LIDD CS1 Address Read and Write Register |
2E24h | LCDLIDDCS1DATA | LCD LIDD CS1 Data Read and Write Register |
2E28h – 2E3Ah | — | Reserved |
2E40h | LCDDMACR | LCD DMA Control Register |
2E44h | LCDDMAFB0BAR0 | LCD DMA Frame Buffer 0 Base Address Register 0 |
2E45h | LCDDMAFB0BAR1 | LCD DMA Frame Buffer 0 Base Address Register 1 |
2E48h | LCDDMAFB0CAR0 | LCD DMA Frame Buffer 0 Ceiling Address Register 0 |
2E49h | LCDDMAFB0CAR1 | LCD DMA Frame Buffer 0 Ceiling Address Register 1 |
2E4Ch | LCDDMAFB1BAR0 | LCD DMA Frame Buffer 1 Base Address Register 0 |
2E4Dh | LCDDMAFB1BAR1 | LCD DMA Frame Buffer 1 Base Address Register 1 |
2E50h | LCDDMAFB1CAR0 | LCD DMA Frame Buffer 1 Ceiling Address Register 0 |
2E51h | LCDDMAFB1CAR1 | LCD DMA Frame Buffer 1 Ceiling Address Register 1 |
Table 6-15 shows the RTC registers.
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
1900h | RTCINTEN | RTC Interrupt Enable Register |
1901h | RTCUPDATE | RTC Update Register |
1904h | RTCMIL | Milliseconds Register |
1905h | RTCMILA | Milliseconds Alarm Register |
1908h | RTCSEC | Seconds Register |
1909h | RTCSECA | Seconds Alarm Register |
190Ch | RTCMIN | Minutes Register |
190Dh | RTCMINA | Minutes Alarm Register |
1910h | RTCHOUR | Hours Register |
1911h | RTCHOURA | Hours Alarm Register |
1914h | RTCDAY | Days Register |
1915h | RTCDAYA | Days Alarm Register |
1918h | RTCMONTH | Months Register |
1919h | RTCMONTHA | Months Alarm Register |
191Ch | RTCYEAR | Years Register |
191Dh | RTCYEARA | Years Alarm Register |
1920h | RTCINTFL | RTC Interrupt Flag Register |
1921h | RTCNOPWR | RTC Lost Power Status Register |
1924h | RTCINTREG | RTC Interrupt Register |
1928h | RTCDRIFT | RTC Compensation Register |
192Ch | RTCOSC | RTC Oscillator Register |
1930h | RTCPMGT | RTC Power Management Register |
1960h | RTCSCR1 | RTC LSW Scratch Register 1 |
1961h | RTCSCR2 | RTC MSW Scratch Register 2 |
1964h | RTCSCR3 | RTC LSW Scratch Register 3 |
1965h | RTCSCR4 | RTC MSW Scratch Register 4 |
Table 6-16 shows the SAR ADC peripheral registers.
Note: SAR ADC applies only to C5535.
CPU WORD ADDRESS | ACRONYM | REGISTER DESCRIPTION |
---|---|---|
7012h | SARCTRL | SAR A/D Control Register |
7014h | SARDATA | SAR A/D Data Register |
7016h | SARCLKCTRL | SAR A/D Clock Control Register |
7018h | SARPINCTRL | SAR A/D Reference and Pin Control Register |
701Ah | SARGPOCTRL | SAR A/D GPO Control Register |
Table 6-17and Table 6-18 shows the SD registers. The SD0 registers start at address 3A00h and the SD1 registers start at address 3B00h.
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
3A00h | SDCTL | SD Control Register |
3A04h | SDCLK | SD Memory Clock Control Register |
3A08h | SDST0 | SD Status Register 0 |
3A0Ch | SDST1 | SD Status Register 1 |
3A10h | SDIM | SD Interrupt Mask Register |
3A14h | SDTOR | SD Response Time-Out Register |
3A18h | SDTOD | SD Data Read Time-Out Register |
3A1Ch | SDBLEN | SD Block Length Register |
3A20h | SDNBLK | SD Number of Blocks Register |
3A24h | SDNBLC | SD Number of Blocks Counter Register |
3A28h | SDDRR1 | SD Data Receive 1 Register |
3A29h | SDDRR2 | SD Data Receive 2 Register |
3A2Ch | SDDXR1 | SD Data Transmit 1 Register |
3A2Dh | SDDXR2 | SD Data Transmit 2 Register |
3A30h | SDCMD | SD Command Register |
3A34h | SDARGHL | SD Argument Register |
3A38h | SDRSP0 | SD Response Register 0 |
3A39h | SDRSP1 | SD Response Register 1 |
3A3Ch | SDRSP2 | SD Response Register 2 |
3A3Dh | SDRSP3 | SD Response Register 3 |
3A40h | SDRSP4 | SD Response Register 4 |
3A41h | SDRSP5 | SD Response Register 5 |
3A44h | SDRSP6 | SD Response Register 6 |
3A45h | SDRSP7 | SD Response Register 7 |
3A48h | SDDRSP | SD Data Response Register |
3A50h | SDCIDX | SD Command Index Register |
3A64h – 3A70h | – | Reserved |
3A74h | SDFIFOCTL | SD FIFO Control Register |
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
3B00h | SDCTL | SD Control Register |
3B04h | SDCLK | SD Memory Clock Control Register |
3B08h | SDST0 | SD Status Register 0 |
3B0Ch | SDST1 | SD Status Register 1 |
3B10h | SDIM | SD Interrupt Mask Register |
3B14h | SDTOR | SD Response Time-Out Register |
3B18h | SDTOD | SD Data Read Time-Out Register |
3B1Ch | SDBLEN | SD Block Length Register |
3B20h | SDNBLK | SD Number of Blocks Register |
3B24h | SDNBLC | SD Number of Blocks Counter Register |
3B28h | SDDRR1 | SD Data Receive 1 Register |
3B29h | SDDRR2 | SD Data Receive 2 Register |
3B2Ch | SDDXR1 | SD Data Transmit 1 Register |
3B2Dh | SDDXR2 | SD Data Transmit 2 Register |
3B30h | SDCMD | SD Command Register |
3B34h | SDARGHL | SD Argument Register |
3B38h | SDRSP0 | SD Response Register 0 |
3B39h | SDRSP1 | SD Response Register 1 |
3B3Ch | SDRSP2 | SD Response Register 2 |
3B3Dh | SDRSP3 | SD Response Register 3 |
3B40h | SDRSP4 | SD Response Register 4 |
3B41h | SDRSP5 | SD Response Register 5 |
3B44h | SDRSP6 | SD Response Register 6 |
3B45h | SDRSP7 | SD Response Register 7 |
3B48h | SDDRSP | SD Data Response Register |
3B50h | SDCIDX | SD Command Index Register |
3B74h | SDFIFOCTL | SD FIFO Control Register |
Table 6-19 shows the SPI registers.
CPU WORD ADDRESS | ACRONYM | REGISTER NAME |
---|---|---|
3000h | SPICDR | Clock Divider Register |
3001h | SPICCR | Clock Control Register |
3002h | SPIDCR1 | Device Configuration Register 1 |
3003h | SPIDCR2 | Device Configuration Register 2 |
3004h | SPICMD1 | Command Register 1 |
3005h | SPICMD2 | Command Register 2 |
3006h | SPISTAT1 | Status Register 1 |
3007h | SPISTAT2 | Status Register 2 |
3008h | SPIDAT1 | Data Register 1 |
3009h | SPIDAT2 | Data Register 2 |
The system registers are used to configure the device and monitor its status. Brief descriptions of the various system registers are shown in Table 6-20.
CPU WORD ADDRESS | ACRONYM | Register Description | COMMENTS |
---|---|---|---|
0001h | ICR | Idle Control Register | |
0002h | ISTR | Idle Status Register | |
1C00h | EBSR | External Bus Selection Register | See Section 5.7.3.5.1 of this document. |
1C02h | PCGCR1 | Peripheral Clock Gating Control Register 1 | |
1C03h | PCGCR2 | Peripheral Clock Gating Control Register 2 | |
1C04h | PSRCR | Peripheral Software Reset Counter Register | |
1C05h | PRCR | Peripheral Reset Control Register | |
1C14h | TIAFR | Timer Interrupt Aggregation Flag Register | |
1C16h | ODSCR | Output Drive Strength Control Register | |
1C17h | PDINHIBR1 | Pulldown Inhibit Register 1 | |
1C18h | PDINHIBR2 | Pulldown Inhibit Register 2 | |
1C19h | PDINHIBR3 | Pulldown Inhibit Register 3 | |
1C1Ah | DMA0CESR1 | DMA0 Channel Event Source Register 1 | |
1C1Bh | DMA0CESR2 | DMA0 Channel Event Source Register 2 | |
1C1Ch | DMA1CESR1 | DMA1 Channel Event Source Register 1 | |
1C1Dh | DMA1CESR2 | DMA1 Channel Event Source Register 2 | |
1C28h | RAMSLPMDCNTLR1 | RAM Sleep Mode Control Register 1 | |
1C2Ah | RAMSLPMDCNTLR2 | RAM Sleep Mode Control Register 2 | |
1C2Bh | RAMSLPMDCNTLR3 | RAM Sleep Mode Control Register 3 | |
1C2Ch | RAMSLPMDCNTLR4 | RAM Sleep Mode Control Register 4 | |
1C2Dh | RAMSLPMDCNTLR5 | RAM Sleep Mode Control Register 5 | |
1C30h | DMAIFR | DMA Interrupt Flag Aggregation Register | |
1C31h | DMAIER | DMA Interrupt Enable Register | |
1C32h | USBSCR | USB System Control Register | Does not apply to TMS320C5532. |
1C36h | DMA2CESR1 | DMA2 Channel Event Source Register 1 | |
1C37h | DMA2CESR2 | DMA2 Channel Event Source Register 2 | |
1C38h | DMA3CESR1 | DMA3 Channel Event Source Register 1 | |
1C39h | DMA3CESR2 | DMA3 Channel Event Source Register 2 | |
1C3Ah | CLKSTOP | Peripheral Clock Stop Request and Acknowledge Register | |
1C40h | DIEIDR0 | Die ID Register 0 | |
1C41h | DIEIDR1 | Die ID Register 1 | |
1C42h | DIEIDR2 | Die ID Register 2 | |
1C43h | DIEIDR3 | Die ID Register 3 | |
1C44h | DIEIDR4 | Die ID Register 4 | |
1C45h | DIEIDR5 | Die ID Register 5 | |
1C46h | DIEIDR6 | Die ID Register 6 | |
1C47h | DIEIDR7 | Die ID Register 7 | |
7004h | LDOCNTL | LDO Control Register | see Section 5.7.2.1.1.3 of this document. |
Table 6-21 through Table 6-24 show the timer and watchdog registers.
CPU WORD ADDRESS | ACRONYM | REGISTER DESCRIPTION |
---|---|---|
1880h | WDKCKLK | Watchdog Kick Lock Register |
1882h | WDKICK | Watchdog Kick Register |
1884h | WDSVLR | Watchdog Start Value Lock Register |
1886h | WDSVR | Watchdog Start Value Register |
1888h | WDENLOK | Watchdog Enable Lock Register |
188Ah | WDEN | Watchdog Enable Register |
188Ch | WDPSLR | Watchdog Prescale Lock Register |
188Eh | WDPS | Watchdog Prescale Register |
CPU WORD ADDRESS | ACRONYM | REGISTER DESCRIPTION |
---|---|---|
1810h | TCR | Timer 0 Control Register |
1812h | TIMPRD1 | Timer 0 Period Register 1 |
1813h | TIMPRD2 | Timer 0 Period Register 2 |
1814h | TIMCNT1 | Timer 0 Counter Register 1 |
1815h | TIMCNT2 | Timer 0 Counter Register 2 |
CPU WORD ADDRESS | ACRONYM | REGISTER DESCRIPTION |
---|---|---|
1850h | TCR | Timer 1 Control Register |
1852h | TIMPRD1 | Timer 1 Period Register 1 |
1853h | TIMPRD2 | Timer 1 Period Register 2 |
1854h | TIMCNT1 | Timer 1 Counter Register 1 |
1855h | TIMCNT2 | Timer 1 Counter Register 2 |
CPU WORD ADDRESS | ACRONYM | REGISTER DESCRIPTION |
---|---|---|
1890h | TCR | Timer 2 Control Register |
1892h | TIMPRD1 | Timer 2 Period Register 1 |
1893h | TIMPRD2 | Timer 2 Period Register 2 |
1894h | TIMCNT1 | Timer 2 Counter Register 1 |
1895h | TIMCNT2 | Timer 2 Counter Register 2 |
Table 6-25 shows the UART registers.
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME |
---|---|---|
1B00h | RBR | Receiver Buffer Register (read only) |
1B00h | THR | Transmitter Holding Register (write only) |
1B02h | IER | Interrupt Enable Register |
1B04h | IIR | Interrupt Identification Register (read only) |
1B04h | FCR | FIFO Control Register (write only) |
1B06h | LCR | Line Control Register |
1B08h | MCR | Modem Control Register |
1B0Ah | LSR | Line Status Register |
1B0Ch | MSR | Modem Status Register |
1B0Eh | SCR | Scratch Register |
1B10h | DLL | Divisor LSB Latch |
1B12h | DLH | Divisor MSB Latch |
1B18h | PWREMU_MGMT | Power and Emulation Management Register |
Table 6-26 lists of the USB2.0 peripheral registers.
Note: USB does not apply to C5532.
CPU WORD ADDRESS | ACRONYM | REGISTER DESCRIPTION |
---|---|---|
8000h | REVID1 | Revision Identification Register 1 |
8001h | REVID2 | Revision Identification Register 2 |
8004h | CTRLR | Control Register |
8008h | STATR | Status Register |
800Ch | EMUR | Emulation Register |
8010h | MODER1 | Mode Register 1 |
8011h | MODER2 | Mode Register 2 |
8014h | AUTOREQ | Auto Request Register |
8018h | SRPFIXTIME1 | SRP Fix Time Register 1 |
8019h | SRPFIXTIME2 | SRP Fix Time Register 2 |
801Ch | TEARDOWN1 | Teardown Register 1 |
801Dh | TEARDOWN2 | Teardown Register 2 |
8020h | INTSRCR1 | USB Interrupt Source Register 1 |
8021h | INTSRCR2 | USB Interrupt Source Register 2 |
8024h | INTSETR1 | USB Interrupt Source Set Register 1 |
8025h | INTSETR2 | USB Interrupt Source Set Register 2 |
8028h | INTCLRR1 | USB Interrupt Source Clear Register 1 |
8029h | INTCLRR2 | USB Interrupt Source Clear Register 2 |
802Ch | INTMSKR1 | USB Interrupt Mask Register 1 |
802Dh | INTMSKR2 | USB Interrupt Mask Register 2 |
8030h | INTMSKSETR1 | USB Interrupt Mask Set Register 1 |
8031h | INTMSKSETR2 | USB Interrupt Mask Set Register 2 |
8034h | INTMSKCLRR1 | USB Interrupt Mask Clear Register 1 |
8035h | INTMSKCLRR2 | USB Interrupt Mask Clear Register 2 |
8038h | INTMASKEDR1 | USB Interrupt Source Masked Register 1 |
8039h | INTMASKEDR2 | USB Interrupt Source Masked Register 2 |
803Ch | EOIR | USB End of Interrupt Register |
8040h | INTVECTR1 | USB Interrupt Vector Register 1 |
8041h | INTVECTR2 | USB Interrupt Vector Register 2 |
8050h | GREP1SZR1 | Generic RNDIS EP1Size Register 1 |
8051h | GREP1SZR2 | Generic RNDIS EP1Size Register 2 |
8054h | GREP2SZR1 | Generic RNDIS EP2 Size Register 1 |
8055h | GREP2SZR2 | Generic RNDIS EP2 Size Register 2 |
8058h | GREP3SZR1 | Generic RNDIS EP3 Size Register 1 |
8059h | GREP3SZR2 | Generic RNDIS EP3 Size Register 2 |
805Ch | GREP4SZR1 | Generic RNDIS EP4 Size Register 1 |
805Dh | GREP4SZR2 | Generic RNDIS EP4 Size Register 2 |
Common USB Registers | ||
8401h | FADDR_POWER | Function Address Register, Power Management Register |
8402h | INTRTX | Interrupt Register for Endpoint 0 plus Transmit Endpoints 1 to 4 |
8405h | INTRRX | Interrupt Register for Receive Endpoints 1 to 4 |
8406h | INTRTXE | Interrupt enable register for INTRTX |
8409h | INTRRXE | Interrupt Enable Register for INTRRX |
840Ah | INTRUSB_INTRUSBE | Interrupt Register for Common USB Interrupts, Interrupt Enable Register |
840Dh | FRAME | Frame Number Register |
840Eh | INDEX_TESTMODE | Index Register for Selecting the Endpoint Status and Control Registers, Register to Enable the USB 2.0 Test Modes |
USB Indexed Registers | ||
8411h | TXMAXP_INDX | Maximum Packet Size for Peripheral and Host Transmit Endpoint. (Index register set to select Endpoints 1-4) |
8412h | PERI_CSR0_INDX | Control Status Register for Endpoint 0 in Peripheral Mode. (Index register set to select Endpoint 0) |
PERI_TXCSR_INDX | Control Status Register for Peripheral Transmit Endpoint. (Index register set to select Endpoints 1-4) | |
8415h | RXMAXP_INDX | Maximum Packet Size for Peripheral and Host Receive Endpoint. (Index register set to select Endpoints 1-4) |
8416h | PERI_RXCSR_INDX | Control Status Register for Peripheral Receive Endpoint. (Index register set to select Endpoints 1-4) |
8419h | COUNT0_INDX | Number of Received Bytes in Endpoint 0 FIFO. (Index register set to select Endpoint 0) |
RXCOUNT_INDX | Number of Bytes in Host Receive Endpoint FIFO. (Index register set to select Endpoints 1- 4) | |
841Ah | - | Reserved |
841Dh | - | Reserved |
841Eh | CONFIGDATA_INDC (Upper byte of 841Eh) |
Returns details of core configuration. (index register set to select Endpoint 0) |
USB FIFO Registers | ||
8421h | FIFO0R1 | Transmit and Receive FIFO Register 1 for Endpoint 0 |
8422h | FIFO0R2 | Transmit and Receive FIFO Register 2 for Endpoint 0 |
8425h | FIFO1R1 | Transmit and Receive FIFO Register 1 for Endpoint 1 |
8426h | FIFO1R2 | Transmit and Receive FIFO Register 2 for Endpoint 1 |
8429h | FIFO2R1 | Transmit and Receive FIFO Register 1 for Endpoint 2 |
842Ah | FIFO2R2 | Transmit and Receive FIFO Register 2 for Endpoint 2 |
842Dh | FIFO3R1 | Transmit and Receive FIFO Register 1 for Endpoint 3 |
842Eh | FIFO3R2 | Transmit and Receive FIFO Register 2 for Endpoint 3 |
8431h | FIFO4R1 | Transmit and Receive FIFO Register 1 for Endpoint 4 |
8432h | FIFO4R2 | Transmit and Receive FIFO Register 2 for Endpoint 4 |
Dynamic FIFO Control Registers | ||
8461h | DEVCTL | Device Control Register |
8462h | TXFIFOSZ_RXFIFOSZ | Transmit Endpoint FIFO Size, Receive Endpoint FIFO Size (Index register set to select Endpoints 1-4) |
8465h | TXFIFOADDR | Transmit Endpoint FIFO Address (Index register set to select Endpoints 1-4) |
8466h | RXFIFOADDR | Receive Endpoint FIFO Address (Index register set to select Endpoints 1-4) |
846Dh | - | Reserved |
Control and Status Register for Endpoint 0 | ||
8501h | - | Reserved |
8502h | PERI_CSR0 | Control Status Register for Peripheral Endpoint 0 |
8505h | - | Reserved |
8506h | - | Reserved |
8509h | COUNT0 | Number of Received Bytes in Endpoint 0 FIFO |
850Ah | - | Reserved |
850Dh | - | Reserved |
850Eh | CONFIGDATA (Upper byte of 850Eh) |
Returns details of core configuration. |
Control and Status Register for Endpoint 1 | ||
8511h | TXMAXP | Maximum Packet Size for Peripheral and Host Transmit Endpoint |
8512h | PERI_TXCSR | Control Status Register for Peripheral Transmit Endpoint (peripheral mode) |
8515h | RXMAXP | Maximum Packet Size for Peripheral and Host Receive Endpoint |
8516h | PERI_RXCSR | Control Status Register for Peripheral Receive Endpoint (peripheral mode) |
8519h | RXCOUNT | Number of Bytes in the Receiving Endpoint's FIFO |
851Ah | - | Reserved |
851Dh | - | Reserved |
851Eh | - | Reserved |
Control and Status Register for Endpoint 2 | ||
8521h | TXMAXP | Maximum Packet Size for Peripheral and Host Transmit Endpoint |
8522h | PERI_TXCSR | Control Status Register for Peripheral Transmit Endpoint (peripheral mode) |
8525h | RXMAXP | Maximum Packet Size for Peripheral and Host Receive Endpoint |
8526h | PERI_RXCSR | Control Status Register for Peripheral Receive Endpoint (peripheral mode) |
8529h | RXCOUNT | Number of Bytes in Host Receive endpoint FIFO |
852Ah | - | Reserved |
852Dh | - | Reserved |
852Eh | - | Reserved |
Control and Status Register for Endpoint 3 | ||
8531h | TXMAXP | Maximum Packet Size for Peripheral and Host Transmit Endpoint |
8532h | PERI_TXCSR | Control Status Register for Peripheral Transmit Endpoint (peripheral mode) |
8535h | RXMAXP | Maximum Packet Size for Peripheral and Host Receive Endpoint |
8536h | PERI_RXCSR | Control Status Register for Peripheral Receive Endpoint (peripheral mode) |
8539h | RXCOUNT | Number of Bytes in Host Receive endpoint FIFO |
853Ah | - | Reserved |
853Dh | - | Reserved |
853Eh | - | Reserved |
Control and Status Register for Endpoint 4 | ||
8541h | TXMAXP | Maximum Packet Size for Peripheral and Host Transmit Endpoint |
8542h | PERI_TXCSR | Control Status Register for Peripheral Transmit Endpoint (peripheral mode) |
8545h | RXMAXP | Maximum Packet Size for Peripheral and Host Receive Endpoint |
8546h | PERI_RXCSR | Control Status Register for Peripheral Receive Endpoint (peripheral mode) |
8549h | RXCOUNT | Number of Bytes in Host Receive endpoint FIFO |
854Ah | - | Reserved |
854Dh | - | Reserved |
854Eh | - | Reserved |
CPPI DMA (CMDA) Registers | ||
9000h | - | Reserved |
9001h | - | Reserved |
9004h | TDFDQ | CDMA Teardown Free Descriptor Queue Control Register |
9008h | DMAEMU | CDMA Emulation Control Register |
9800h | TXGCR1[0] | Transmit Channel 0 Global Configuration Register 1 |
9801h | TXGCR2[0] | Transmit Channel 0 Global Configuration Register 2 |
9808h | RXGCR1[0] | Receive Channel 0 Global Configuration Register 1 |
9809h | RXGCR2[0] | Receive Channel 0 Global Configuration Register 2 |
980Ch | RXHPCR1A[0] | Receive Channel 0 Host Packet Configuration Register 1 A |
980Dh | RXHPCR2A[0] | Receive Channel 0 Host Packet Configuration Register 2 A |
9810h | RXHPCR1B[0] | Receive Channel 0 Host Packet Configuration Register 1 B |
9811h | RXHPCR2B[0] | Receive Channel 0 Host Packet Configuration Register 2 B |
9820h | TXGCR1[1] | Transmit Channel 1 Global Configuration Register 1 |
9821h | TXGCR2[1] | Transmit Channel 1 Global Configuration Register 2 |
9828h | RXGCR1[1] | Receive Channel 1 Global Configuration Register 1 |
9829h | RXGCR2[1] | Receive Channel 1 Global Configuration Register 2 |
982Ch | RXHPCR1A[1] | Receive Channel 1 Host Packet Configuration Register 1 A |
982Dh | RXHPCR2A[1] | Receive Channel 1 Host Packet Configuration Register 2 A |
9830h | RXHPCR1B[1] | Receive Channel 1 Host Packet Configuration Register 1 B |
9831h | RXHPCR2B[1] | Receive Channel 1 Host Packet Configuration Register 2 B |
9840h | TXGCR1[2] | Transmit Channel 2 Global Configuration Register 1 |
9841h | TXGCR2[2] | Transmit Channel 2 Global Configuration Register 2 |
9848h | RXGCR1[2] | Receive Channel 2 Global Configuration Register 1 |
9849h | RXGCR2[2] | Receive Channel 2 Global Configuration Register 2 |
984Ch | RXHPCR1A[2] | Receive Channel 2 Host Packet Configuration Register 1 A |
984Dh | RXHPCR2A[2] | Receive Channel 2 Host Packet Configuration Register 2 A |
9850h | RXHPCR1B[2] | Receive Channel 2 Host Packet Configuration Register 1 B |
9851h | RXHPCR2B[2] | Receive Channel 2 Host Packet Configuration Register 2 B |
9860h | TXGCR1[3] | Transmit Channel 3 Global Configuration Register 1 |
9861h | TXGCR2[3] | Transmit Channel 3 Global Configuration Register 2 |
9868h | RXGCR1[3] | Receive Channel 3 Global Configuration Register 1 |
9869h | RXGCR2[3] | Receive Channel 3 Global Configuration Register 2 |
986Ch | RXHPCR1A[3] | Receive Channel 3 Host Packet Configuration Register 1 A |
986Dh | RXHPCR2A[3] | Receive Channel 3 Host Packet Configuration Register 2 A |
9870h | RXHPCR1B[3] | Receive Channel 3 Host Packet Configuration Register 1 B |
9871h | RXHPCR2B[3] | Receive Channel 3 Host Packet Configuration Register 2 B |
A000h | DMA_SCHED_CTRL1 | CDMA Scheduler Control Register 1 |
A001h | DMA_SCHED_CTRL2 | CDMA Scheduler Control Register 1 |
A800h + 4 × N | ENTRYLSW[N] | CDMA Scheduler Table Word N Registers LSW (N = 0 to 63) |
A801h + 4 × N | ENTRYMSW[N] | CDMA Scheduler Table Word N Registers MSW (N = 0 to 63) |
Queue Manager (QMGR) Registers | ||
C000h | - | Reserved |
C001h | - | Reserved |
C008h | DIVERSION1 | Queue Manager Queue Diversion Register 1 |
C009h | DIVERSION2 | Queue Manager Queue Diversion Register 2 |
C020h | FDBSC0 | Queue Manager Free Descriptor and Buffer Starvation Count Register 0 |
C021h | FDBSC1 | Queue Manager Free Descriptor and Buffer Starvation Count Register 1 |
C024h | FDBSC2 | Queue Manager Free Descriptor and Buffer Starvation Count Register 2 |
C025h | FDBSC3 | Queue Manager Free Descriptor and Buffer Starvation Count Register 3 |
C028h | FDBSC4 | Queue Manager Free Descriptor and Buffer Starvation Count Register 4 |
C029h | FDBSC5 | Queue Manager Free Descriptor and Buffer Starvation Count Register 5 |
C02Ch | FDBSC6 | Queue Manager Free Descriptor and Buffer Starvation Count Register 6 |
C02Dh | FDBSC7 | Queue Manager Free Descriptor and Buffer Starvation Count Register 7 |
C080h | LRAM0BASE1 | Queue Manager Linking RAM Region 0 Base Address Register 1 |
C081h | LRAM0BASE2 | Queue Manager Linking RAM Region 0 Base Address Register 2 |
C084h | LRAM0SIZE | Queue Manager Linking RAM Region 0 Size Register |
C085h | - | Reserved |
C088h | LRAM1BASE1 | Queue Manager Linking RAM Region 1 Base Address Register 1 |
C089h | LRAM1BASE2 | Queue Manager Linking RAM Region 1 Base Address Register 2 |
C090h | PEND0 | Queue Manager Queue Pending 0 |
C091h | PEND1 | Queue Manager Queue Pending 1 |
C094h | PEND2 | Queue Manager Queue Pending 2 |
C095h | PEND3 | Queue Manager Queue Pending 3 |
C098h | PEND4 | Queue Manager Queue Pending 4 |
C099h | PEND5 | Queue Manager Queue Pending 5 |
D000h + 16 × R | QMEMRBASE1[R] | Queue Manager Memory Region R Base Address Register 1 (R = 0 to 15) |
D001h + 16 × R | QMEMRBASE2[R] | Queue Manager Memory Region R Base Address Register 2 (R = 0 to 15) |
D004h + 16 × R | QMEMRCTRL1[R] | Queue Manager Memory Region R Control Register (R = 0 to 15) |
D005h + 16 × R | QMEMRCTRL2[R] | Queue Manager Memory Region R Control Register (R = 0 to 15) |
E000h + 16 × N | CTRL1A | Queue Manager Queue N Control Register 1A (N = 0 to 63) |
E001h + 16 × N | CTRL2A | Queue Manager Queue N Control Register 2A (N = 0 to 63) |
E004h + 16 × N | CTRL1B | Queue Manager Queue N Control Register 1B (N = 0 to 63) |
E005h + 16 × N | CTRL2B | Queue Manager Queue N Control Register 2B (N = 0 to 63) |
E008h + 16 × N | CTRL1C | Queue Manager Queue N Control Register 1C (N = 0 to 63) |
E009h + 16 × N | CTRL2C | Queue Manager Queue N Control Register 2C (N = 0 to 63) |
E00Ch + 16 × N | CTRL1D | Queue Manager Queue N Control Register 1D (N = 0 to 63) |
E00Dh + 16 × N | CTRL2D | Queue Manager Queue N Control Register 2D (N = 0 to 63) |
E800h + 16 × N | QSTAT1A | Queue Manager Queue N Status Register 1A (N = 0 to 63) |
E801h + 16 × N | QSTAT2A | Queue Manager Queue N Status Register 2A (N = 0 to 63) |
E804h + 16 × N | QSTAT1B | Queue Manager Queue N Status Register 1B (N = 0 to 63) |
E805h + 16 × N | QSTAT2B | Queue Manager Queue N Status Register 2B (N = 0 to 63) |
E808h + 16 × N | QSTAT1C | Queue Manager Queue N Status Register 1C (N = 0 to 63) |
E809h + 16 × N | QSTAT1C | Queue Manager Queue N Status Register 2C (N = 0 to 63) |
HEX ADDRESS RANGE | ACRONYM | REGISTER NAME | COMMENTS |
---|---|---|---|
N/A | JTAGID | JTAG Identification Register | Read-only. Provides 32-bit JTAG ID of the device. |
The JTAG ID register is a read-only register that identifies to the customer the JTAG/Device ID. The register hex value for the device is: 0x1B8F E02F. For the actual register bit names and their associated bit field descriptions, see Figure 6-5 and Table 6-28.
31-28 | 27-12 | 11-1 | 0 |
VARIANT (4-Bit) | PART NUMBER (16-Bit) | MANUFACTURER (11-Bit) | LSB |
R-0001 | R-1011 1000 1111 1110 | R-0000 0010 111 | R-1 |
LEGEND: R = Read, W = Write, n = value at reset |
BIT | NAME | DESCRIPTION |
---|---|---|
31:28 | VARIANT | Variant (4-Bit) value: 0001. |
27:12 | PART NUMBER | Part Number (16-Bit) value: 1011 1000 1111 1110. |
11:1 | MANUFACTURER | Manufacturer (11-Bit) value: 0000 0010 111. |
0 | LSB | LSB. This bit is read as a "1". |
The DSP supports the following boot modes in the following device order: SPI 16-bit EEPROM, SPI 24-bit Flash, I2C EEPROM, and eMMC boot partition, eMMC, SD, or SDHC card. The boot mode is determined by checking for a valid boot signature on each supported boot device. The first boot device with a valid boot signature will be used to load and execute the user code. If none of the supported boot devices have a valid boot signature, the bootloader goes into an endless loop checking the UART or USB boot mode and the device must be reset to search for another valid boot image in the supported boot modes.
Note: For detailed information on eMMC boot partition, eMMC, SD, or SDHC and UART or USB boot modes, contact your local sales representative.
The boot sequence is a process by which the device's on-chip memory is loaded with program and data sections from an external image file (in flash memory, for example). The boot sequence also allows, optionally, for some of the device's internal registers to be programmed with predetermined values. The boot sequence is started automatically after each device reset. For more details on device reset, see Section 5.7.3, Reset.
There are several methods by which the memory and register initialization can take place. Each of these methods is referred to as a boot mode. At reset, the device cycles through different boot modes until an image is found with a valid boot signature. The on-chip bootloader allows the DSP registers to be configured during the boot process, if the optional register configuration section is present in the boot image (see Figure 6-6). For more information on the boot modes supported, see Section 6.4, Boot Modes.
The device bootloader follows the following steps as shown in Figure 6-6
After reset, the on-chip bootloader programs the system clock generator based on the input clock selected via the CLK_SEL pin. If CLK_SEL = 0, the bootloader programs the system clock generator and sets the system clock to 12.288 MHz (multiply the 32.768-kHz RTC oscillator clock by 375). If CLK_SEL = 1, the bootloader bypasses the system clock generator altogether and the system clock is driven by the CLKIN pin.
Note:
After hardware reset, the DSP boots via the bootloader code in ROM. During the boot process, the bootloader queries each peripheral to determine if it can boot from that peripheral. At that time, the individual peripheral clocks will be enabled for the query and then disabled when the bootloader is finished with the peripheral. By the time the bootloader releases control to the user code, all peripheral clocks will be "off" and all domains in the ICR, except the CPU domain, will be idled.
The bootloader uses SARAM block 31 for the storing of temporary data. This block of memory is reserved during the boot process. However, after the boot process is complete, it can be used by the user application.