TMS320DM6435 Digital Media Processor High-Performance Digital Med
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TMS320DM6435 Digital Media Processor
TMS320DM6435 Digital Media Processor
High-Performance Digital Media Processor (DM6435) 2.5-, 2.-, 1.67-,1.51-, 1.43-ns Instruction Cycle Time 400-, 500-, 600-, 660-, 700-MHz C64x+Clock Rate Eight 32-Bit C64x+ Instructions/Cycle 3200, 4000, 4800, 5280, 5600 MIPS Fully Software-Compatible With C64x Commercial Automotive suffix) Grades Power Device suffix) VelociTI.2Extensions VelociTIAdvanced Very-Long-Instruction-Word (VLIW) TMS320C64x+DSP Core Eight Highly Independent Functional Units With VelociTI.2 Extensions: ALUs (32-/40-Bit), Each Supports Single 32-Bit, Dual 16-Bit, Quad 8-Bit Arithmetic Clock Cycle Multipliers Support Four 16-Bit Multiplies (32-Bit Results) Clock Cycle Eight 8-Bit Multiplies (16-Bit Results) Clock Cycle Load-Store Architecture With Non-Aligned Support 32-Bit General-Purpose Registers Instruction Packing Reduces Code Size Instructions Conditional Additional C64x+Enhancements Protected Mode Operation Exceptions Support Error Detection Program Redirection Hardware Support Modulo Loop Auto-Focus Module Operation C64x+ Instruction Features Byte-Addressable (8-/16-/32-/64-Bit Data) 8-Bit Overflow Protection Bit-Field Extract, Set, Clear Normalization, Saturation, Bit-Counting VelociTI.2 Increased Orthogonality C64x+ Extensions Compact 16-bit Instructions Additional Instructions Support Complex Multiplies C64x+ L1/L2 Memory Architecture 256K-Bit (32K-Byte) Program RAM/Cache [Flexible Allocation] 640K-Bit (80K-Byte) Data RAM/Cache [Flexible Allocation] 1M-Bit (128K-Byte) Unified Mapped RAM/Cache [Flexible Allocation] Supports Little Endian Mode Only Video Processing Subsystem (VPSS), VPFE Only Front Provides: CMOS Imager Interface BT.601/BT.656 Digital YCbCr 4:2:2 (8-/16-Bit) Interface Preview Engine Real-Time Image Processing Glueless Interface Common Video Decoders Histogram Module Auto-Exposure, Auto-White Balance Auto-Focus Module Resize Engine Resize Images From 1/4x Separate Horizontal/Vertical Control External Memory Interfaces (EMIFs) 32-Bit DDR2 SDRAM Memory Controller With 256M-Byte Address Space (1.8-V I/O) Supports 333-MHz (data rate) interfaces DDR2-400 SDRAM Asynchronous 8-Bit Wide EMIF (EMIFA) With 64M-Byte Address Reach Flash Memory Interfaces (8-Bit-Wide Data) NAND (8-Bit-Wide Data) Enhanced Direct-Memory-Access (EDMA) Controller Independent Channels) 64-Bit General-Purpose Timers (Each Configurable 32-Bit Timers) 64-Bit Watch Timer UARTs (One with Flow Control) Master/Slave Inter-Integrated Circuit (I2C BusTM) Multichannel Buffered Serial Port (McBSP) AC97 Audio Codec Interface
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PRODUCTION DATA information current publication date. Products conform specifications terms Texas Instruments standard warranty. Production processing does necessarily include testing parameters.
Copyright 2006-2008, Texas Instruments Incorporated
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Standard Voice Codec Interface (AIC12) Telecom Interfaces ST-Bus, H-100 Channel Mode Multichannel Audio Serial Port (McASP0) Four Serializers SPDIF (DIT) Mode 16-Bit Host-Port Interface (HPI) High-End Controller (HECC) 10/100 Mb/s Ethernet (EMAC) IEEE 802.3 Compliant Supports Media Independent Interface (MII) Management Data (MDIO) Module VLYNQInterface (FPGA Interface) Three Pulse Width Modulator (PWM) Outputs On-Chip Bootloader Individual Power-Savings Modes Flexible Clock Generators
IEEE-1149.1 (JTAGTM) Boundary-Scan-Compatible General-Purpose (GPIO) Pins (Multiplexed With Other Device Functions) Packages: 361-Pin Pb-Free PBGA Package (ZWT Suffix), 0.8-mm Ball Pitch 376-Pin Plastic Package (ZDU Suffix), 1.0-mm Ball Pitch 0.09-µm/6-Level Metal Process (CMOS) 3.3-V 1.8-V I/O, 1.2-V Internal (-7/-6/-5/-4/-L/-Q6/-Q5/-Q4) 3.3-V 1.8-V I/O, 1.05-V Internal (-7/-6/-5/-4/-L/-Q5) Applications: Digital Media Networked Media Encode Video Imaging
Description
TMS320C64x+DSPs (including TMS320DM6435 device) highest-performance fixed-point generation TMS320C6000DSP platform. DM6435 device based third-generation high-performance, advanced (VLIW) architecture developed Texas Instruments (TI), making these DSPs excellent choice digital media applications. C64x+devices upward code-compatible from previous devices that part C6000DSP platform. C64xDSPs support added functionality have expanded instruction from previous devices. reference C64x C64x also applies, unless otherwise noted, C64x+ C64x+ CPU, respectively. With performance 5600 million instructions second (MIPS) clock rate MHz, C64x+ core offers solutions high-performance programming challenges. core possesses operational flexibility high-speed controllers numerical capability array processors. C64x+ core processor general-purpose registers 32-bit word length eight highly independent functional units-two multipliers 32-bit result arithmetic logic units (ALUs). eight functional units include instructions accelerate performance video imaging applications. core produce four 16-bit multiply-accumulates (MACs) cycle total 2800 million MACs second (MMACS), eight 8-bit MACs cycle total 5600 MMACS. more details C64x+ DSP, TMS320C64x/C64x+ Instruction Reference Guide (literature number SPRU732). DM6435 also application-specific hardware logic, on-chip memory, additional on-chip peripherals similar other C6000 platform devices. DM6435 core uses two-level cache-based architecture. Level program memory/cache (L1P) consists 256K-bit memory space that configured mapped memory direct mapped cache, Level data (L1D) consists 640K-bit memory space -384K-bit which mapped memory 256K-bit which configured mapped memory 2-way set-associative cache. Level memory/cache (L2) consists 1M-bit memory space that shared between program data space. memory configured mapped memory, cache, combinations two.
TMS320DM6435 Digital Media Processor
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TMS320DM6435 Digital Media Processor
peripheral includes: configurable video port (VPFE); 10/100 Mb/s Ethernet (EMAC) with management data input/output (MDIO) module; 4-bit transmit, 4-bit receive VLYNQ interface; inter-integrated circuit (I2C) interface; multichannel buffered serial port (McBSP); multichannel audio serial port (McASP0) with serializers; 64-bit general-purpose timers each configurable independent 32-bit timers; 64-bit watchdog timer; user-configurable 16-bit host-port interface (HPI); 111-pins general-purpose input/output (GPIO) with programmable interrupt/event generation modes, multiplexed with other peripherals; UARTs with hardware handshaking support UART; pulse width modulator (PWM) peripherals; high-end controller area network (CAN) controller [HECC]; glueless external memory interfaces: asynchronous external memory interface (EMIFA) slower memories/peripherals, higher speed synchronous memory interface DDR2. DM6435 device includes Video Processing Subsystem (VPSS) with configurable video/imaging front-end input peripheral used video capture. Video Processing Front-End (VPFE) comprised Controller (CCDC), Preview Engine (Previewer), Histogram Module, Auto-Exposure/White Balance/Focus Module (H3A), Resizer. CCDC capable interfacing common video decoders, CMOS sensors, Charge Coupled Devices (CCDs). Previewer real-time image processing engine that takes imager data from CMOS sensor converts from Bayer Pattern YUV422. Histogram modules provide statistical information color data DM6435. Resizer accepts image data separate horizontal vertical resizing from 1/4x increments 256/N, where between 1024. Ethernet Media Access Controller (EMAC) provides efficient interface between DM6435 network. DM6435 EMAC support both 10Base-T 100Base-TX, Mbits/second (Mbps) Mbps either half- full-duplex mode, with hardware flow control quality service (QOS) support. Management Data Input/Output (MDIO) module continuously polls MDIO addresses order enumerate devices system. VLYNQ ports allow DM6435 easily control peripheral devices and/or communicate with host processors. high-end controller area network (CAN) controller [HECC] module provides network protocol harsh environment communicate serially with other controllers, typically automotive applications. rich peripheral provides ability control external peripheral devices communicate with external processors. details each peripherals, related sections later this document associated peripheral reference guides. DM6435 complete development tools. These include compilers, assembly optimizer simplify programming scheduling, Windowsdebugger interface visibility into source code execution.
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TMS320DM6435 Digital Media Processor
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Functional Block Diagram
Figure shows functional block diagram DM6435 device.
BT.656, Y/C, (Bayer) JTAG Interface System Control Input Clock(s) PLLs/Clock Generator Power/Sleep Controller Multiplexing Subsystem C64x+ Data Video Processing Subsystem (VPSS) Front
Resizer Controller Histogram/ Video Preview Interface
Boot
Switched Central Resource (SCR)
Peripherals
Serial Interfaces System
McASP
McBSP
HECC
UART
GeneralPurpose Timer
Watchdog Timer
GPIO
EDMA
Connectivity
Program/Data Storage
VLYNQ
EMAC With MDIO
DDR2 Ctlr (32b)
Async EMIF/ NAND/ (8b)
Figure 1-1. TMS320DM6435 Functional Block Diagram
TMS320DM6435 Digital Media Processor
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Contents
TMS320DM6435 Digital Media Processor
Features Description Functional Block Diagram Temperature (Unless Otherwise Noted)
Peripheral Information Electrical Specifications
6.10 6.11 6.12 6.13 6.14 6.15 6.16 6.17 6.18 6.19 6.20 6.21 6.22 6.23 Parameter Information Recommended Clock Control Signal Transition Behavior. Power Supplies Enhanced Direct Memory Access (EDMA3) Controller Reset External Clock Input From MXI/CLKIN
Revision History Device Overview
Device Characteristics (DSP Core) Description C64x+ CPU.
Assignments Terminal Functions Device Support
Memory Summary
Clock PLLs Interrupts External Memory Interface (EMIF) Video Processing Sub-System (VPSS) Overview Universal Asynchronous Receiver/Transmitter (UART) Inter-Integrated Circuit (I2C) Host-Port Interface (HPI) Peripheral Multichannel Buffered Serial Port (McBSP). Multichannel Audio Serial Port (McASP0) Peripheral High-End Controller Area Network Controller (HECC) Ethernet Media Access Controller (EMAC) Management Data Input/Output (MDIO)
Device Development-Support Tool Nomenclature Documentation Support System Module Registers Power Considerations Clock Considerations Boot Sequence Configurations Reset Configurations After Reset Multiplexed Configurations Device Initialization Sequence After Reset Debugging Considerations System Interconnect Block Diagram Absolute Maximum Ratings Over Operating Temperature Range (Unless Otherwise Noted) Recommended Operating Conditions Electrical Characteristics Over Recommended Ranges Supply Voltage Operating
Device Configuration
Timers Pulse Width Modulator (PWM). VLYNQ General-Purpose Input/Output (GPIO). IEEE 1149.1 JTAG Thermal Data
System Interconnect
Device Operating Conditions.
Mechanical Data.
7.1.1 Thermal Data 7.1.2 Packaging Information.
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Contents
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Revision History
NOTE: Page numbers previous revisions differ from page numbers current version.
This data manual revision history highlights technical changes made SPRS344B device-specific data manual make SPRS344C revision. This data manual revision history highlights technical changes made SPRS344B device-specific data manual make SPRS344C revision. Scope: Applicable updates TMS320DM643x DMP, specifically relating TMS320DM6435 device, have been incorporated. Added 660- 700-MHz C64x+device speeds. Added designators low-power (-L) devices.
Global
Updated/Changed signal name from "C_WE" "C_WE" Updated/Changed signal name from "C_WEN" "C_WE"
Section Section
Added "5280, 5600 MIPS" "High-Performance Digital Signal Processor (DM6435)" bullet first paragraph, updated/changed following: First sentence from "With performance 4800 million instructions second (MIPS) clock rate MHz." "With performance 5600 million instructions second (MIPS) with clock rate MHz." Fifth sentence from "The core produce.for total 2400 million MACs second.or total 4800 MMACS."to "The core produce.for total 2800 million MACs second.or total 5600 MMACS."
Section
Table 2-19, Multichannel Audio Serial Port (McASP0) Terminal Functions: Updated/Changed AFSR0/DR0/GP[100] description from frame synchronization AFSX0." ".frame synchronization AFSR0." Updated/Changed AFSX0/DX1/GP[107] description from ".frame synchronization AFSR0." ".frame synchronization AFSX0." Updated/Changed Figure 2-10, Device Nomenclature, reflect device speeds low-power designator suffix). Added footnote Section 5.1, Absolute Maximum Ratings Over Operating Temperature Range (Unless Otherwise Noted). Updated/Changed ICDD IDDD test conditions footnote Section 5.3, Electrical Characteristics Over Recommended Ranges Supply Voltage Operating Temperature (Unless Otherwise Noted). Deleted "Future variants." footnote from table Table 6-15, PLLC1 Clock Frequency Ranges: Updated/Changed PLLOUT 1.2V-CVDD value from "700 MHz" "600 MHz" -6/-5/-4/-L/-Q6/-Q5/-Q4 devices. Updated/Changed SYSCLK1 1.05V-CVDD value from "560 MHz" "520 MHz" devices. Updated/Changed sentence from requires filter manufacturer Murata." recommends filter manufacturer Murata." Deleted "(-4, -4Q, -4S, -5Q, -5S, -6)" from Table 6-19 title, Timing Requirements MXI/CLKIN.
Section Section Section Section Section 6.7.1
Section 6.7.1 Section 6.7.4
Revision History
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TMS320DM6435 Digital Media Processor
Device Overview
Device Characteristics
Table 2-1, provides overview TMS320DM6435 DSP. tables show significant features DM6435 device, including capacity on-chip RAM, peripherals, frequency, package type with count. Table 2-1. Characteristics DM6435 Processor
HARDWARE FEATURES DDR2 Memory Controller Asynchronous EMIF [EMIFA] EDMA3 Timers Peripherals peripherals pins available same time (For more detail, Device Configuration section). UARTs McBSP McASP 10/100 Ethernet (EMAC) with Management Data Input/Output (MDIO) VLYNQ General-Purpose Input/Output Port (GPIO) (16-bit) Configurable Video Port HECC Size (Bytes) On-Chip Memory DM6435 (16-/32-bit width) [1.8 I/O] Asynchronous (8-bit width), RAM, Flash, (8-bit 8-bit NAND) independent channels, QDMA channels) 64-bit General Purpose (configurable 64-bit 32-bit) 64-bit Watch (one with flow control) (Master/Slave) serailizers) pins outputs Input (VPFE) 240KB RAM, 64KB 32K-Byte (32KB) Program (L1P) RAM/Cache (Cache 32KB) 80KB Data (L1D) RAM/Cache (Cache 32KB) 128KB Unified Mapped RAM/Cache (L2) 64KB Boot TMS320DM6437/35/33/31 Digital Media Processor (DMP) [Silicon Revisions 1.0] Silicon Errata (literature number SPRZ250). Section 6.23.1, JTAG (JTAGID) Register Description(s) (-7) (-Q6) (-6/-L) (-5/-Q5) (-4/-Q4) (-4/-Q4) (-5/-Q5) 1.67 (-6/-L) 1.51 (-Q6) 1.43 (-7)
Organization
MegaModule JTAG BSDL_ID
Revision Register (MM_REVID.[15:0]) (address location: 0x0181 2000) Control Status Register (CSR.[31:16]) JTAGID register (address location: 0x01C4 0028)
Frequency
Cycle Time
Performance numbers assume core voltage 1.2V. Applies "tape reel" part number counterparts well. more information, Section 2.8, Device Development-Support Tool Nomenclature.
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Device Overview
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Table 2-1. Characteristics DM6435 Processor (continued)
HARDWARE FEATURES DM6435 (-7/ -6/-5/ -4/-L/-Q6/-Q5/-Q4) 1.05 (-7/-6/-5/-4/-L/-Q5) (Bypass), 361-Pin (ZWT) 376-Pin (ZDU) 0.09
Voltage
Core
Options Package(s) Process Technology Product Status
MXI/CLKIN frequency multiplier reference) pitch pitch Product Preview (PP), Advance Information (AI), Production Data (PD)
PRODUCTION DATA information current publication date. Products conform specifications terms Texas Instruments standard warranty. Production processing does necessarily include testing parameters.
(DSP Core) Description
C64x+ Central Processing Unit (CPU) consists eight functional units, register files, data paths shown Figure 2-1. general-purpose register files each contain 32-bit registers total registers. general-purpose registers used data data address pointers. data types supported include packed 8-bit data, packed 16-bit data, 32-bit data, 40-bit data, 64-bit data. Values larger than bits, such 40-bit-long 64-bit-long values stored register pairs, with LSBs data placed even register remaining MSBs next upper register (which always odd-numbered register). eight functional units (.M1, .L1, .D1, .S1, .M2, .L2, .D2, .S2) each capable executing instruction every clock cycle. functional units perform multiply operations. units perform general arithmetic, logical, branch functions. units primarily load data from memory register file store results from register file into memory. C64x+ extends performance C64x core through enhancements features. Each C64x+ unit perform following each clock cycle: multiply, multiply, multiplies, multiplies, multiplies with add/subtract capabilities, four multiplies, four multiplies with operations, four multiplies with add/subtract capabilities (including complex multiply). There also support Galois field multiplication 8-bit 32-bit data. Many communications algorithms such FFTs modems require complex multiplication. complex multiply (CMPY) instruction takes 16-bit inputs produces 32-bit real 32-bit imaginary output. There also complex multiplies with rounding capability that produces 32-bit packed output that contain 16-bit real 16-bit imaginary values. multiply instructions provide extended precision necessary audio other high-precision algorithms variety signed unsigned 32-bit data types. (Arithmetic Logic Unit) incorporates ability parallel add/subtract operations pair common inputs. Versions this instruction exist work 32-bit data pairs 16-bit data performing dual 16-bit subtracts parallel. There also saturated forms these instructions. C64x+ core enhances unit several ways. C64x core, dual 16-bit MIN2 MAX2 comparisons were only available units. C64x+ core they also available unit which increases performance algorithms that searching sorting. Finally, increase data packing unpacking throughput, unit allows sustained high performance quad 8-bit/16-bit dual 16-bit instructions. Unpack instructions prepare 8-bit data parallel 16-bit operations. Pack instructions return parallel results output precision including saturation support. Other features include:
Device Overview
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TMS320DM6435 Digital Media Processor
SPLOOP small instruction buffer that aids creation software pipelining loops where multiple iterations loop executed parallel. SPLOOP buffer reduces code size associated with software pipelining. Furthermore, loops SPLOOP buffer fully interruptible. Compact Instructions native instruction size C6000 devices bits. Many common instructions such MPY, AND, ADD, expressed bits C64x+ compiler restrict code certain registers register file. This compression performed code generation tools. Instruction Enhancement noted above, there instructions such 32-bit multiplications, complex multiplications, packing, sorting, manipulation, 32-bit Galois field multiplication. Exceptions Handling Intended programmer isolating bugs. C64x+ able detect respond exceptions, both from internally detected sources (such illegal op-codes) from system events (such watchdog time expiration). Privilege Defines user supervisor modes operation, allowing operating system give basic level protection sensitive resources. Local memory divided into multiple pages, each with read, write, execute permissions. Time-Stamp Counter Primarily targeted Real-Time Operating System (RTOS) robustness, free-running time-stamp counter implemented which sensitive system stalls.
more details C64x+ enhancements over C64x architecture, following documents: TMS320C64x/C64x+ Instruction Reference Guide (literature number SPRU732) TMS320C64x+ Megamodule Reference Guide (literature number SPRU871) TMS320C64x TMS320C64x+ Migration Guide Application Report (literature number SPRAA84) TMS320C64x+ Cache User's Guide (literature number SPRU862)
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Device Overview
SPRS344C NOVEMBER 2006 REVISED JUNE 2008
src1
src2
even ST1b ST1a
long
long even src1 src2
Data path
dst2 dst1 src1 src2
LD1b LD1a
src1 src2
src2
src1
LD2a LD2b
src2 src1 dst2 dst1
src2 src1
Data path
even long ST2a ST2b
long even src2
src1
unit, dst2 MSB. unit, dst1 LSB. C64x unit, src2 bits; C64x+ unit, src2 bits. units, connects register files even connects even register files.
Figure 2-1. TMS320C64x+CPU (DSP Core) Data Paths
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Even register file (A0, A4.A30)
register file (A1, A5.A31)
register file (B1, B5.B31) Even register file (B0, B4.B30)
Control Register
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C64x+
C64x+ core uses two-level cache-based architecture. Level Program memory/cache (L1P) consists memory space that configured mapped memory direct mapped cache. Level Data memory/cache (L1D) consists KB-48 which mapped memory which configured mapped memory 2-way associated cache. Level memory/cache (L2) consists memory space that shared between program data space. memory configured mapped memory, cache, combination both. Table shows memory C64x+ cache registers device. Table 2-2. C64x+ Cache Registers
ADDRESS RANGE 0x0184 0000 0x0184 0020 0x0184 0024 0x0184 0040 0x0184 0044 0x0184 0048 0x0184 0FFC 0x0184 1000 0x0184 1004 0x0184 1FFC 0x0184 2000 0x0184 2004 0x0184 2008 0x0184 200C 0x0184 2010 0x0184 3FFF 0x0184 4000 0x0184 4004 0x0184 4010 0x0184 4014 0x0184 4018 0x0184 401C 0x0184 4020 0x0184 4024 0x0184 4030 0x0184 4034 0x0184 4038 0x0184 4040 0x0184 4044 0x0184 4048 0x0184 404C 0x0184 4050 0x0184 4FFF 0x0184 5000 0x0184 5004 0x0184 5008 0x0184 500C 0x0184 5027 0x0184 5028 0x0184 502C 0x0184 5039 0x0184 5040 0x0184 5044 0x0184 5048 Submit Documentation Feedback REGISTER ACRONYM L2CFG L1PCFG L1PCC L1DCFG L1DCC EDMAWEIGHT L2ALLOC0 L2ALLOC1 L2ALLOC2 L2ALLOC3 L2WBAR L2WWC L2WIBAR L2WIWC L2IBAR L2IWC L1PIBAR L1PIWC L1DWIBAR L1DWIWC L1DWBAR L1DWWC L1DIBAR L1DIWC L2WB L2WBINV L2INV L1PINV L1DWB L1DWBINV L1DINV DESCRIPTION Cache configuration register Size Cache configuration register Freeze Mode Cache configuration register Size Cache configuration register Freeze Mode Cache configuration register Reserved EDMA access control register Reserved allocation register allocation register allocation register allocation register Reserved writeback base address register writeback word count register writeback invalidate base address register writeback invalidate word count register invalidate base address register invalidate word count register invalidate base address register invalidate word count register writeback invalidate base address register writeback invalidate word count register Reserved Block Writeback Block Writeback invalidate base address register invalidate word count register Reserved writeback register writeback invalidate register Global Invalidate without writeback Reserved Global Invalidate Reserved Global Writeback Global Writeback with Invalidate Global Invalidate without writeback Device Overview
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Table 2-2. C64x+ Cache Registers (continued)
ADDRESS RANGE 0x0184 8000 0x0184 80BC 0x0184 80C0 0x0184 80FC 0x0184 8100 0x0184 8104 0x0184 8108 0x0184 8124 0x0184 8128 0x0184 812C 0x0184 8130 0x0184 813C 0x0184 8140- 0x0184 81FC 0x0184 8200 0x0184 823C 0x0184 8240 0x0184 83FC REGISTER ACRONYM MAR0 MAR47 MAR48 MAR63 MAR64 MAR65 MAR66 MAR73 MAR74 MAR75 MAR76 MAR79 MAR80 MAR127 MAR128 MAR143 MAR144 MAR255 DESCRIPTION Reserved (corresponds byte address 0x0000 0000 0x2FFF FFFF) Reserved (corresponds byte address 0x3000 0000 0x3FFF FFFF) Reserved (corresponds byte address 0x4000 0000 0x41FF FFFF) Memory Attribute Registers EMIFA (corresponds byte address 0x4200 0000 0x49FF FFFF) Reserved (corresponds byte address 0x4A00 0000 0x4BFF FFFF) Memory Attribute Registers VLYNQ (corresponds byte address 0x4C00 0000 0x4FFF FFFF) Reserved (corresponds byte address 0x5000 0000 0x7FFF FFFF) Memory Attribute Registers DDR2 (corresponds byte address 0x8000 0000 0x8FFF FFFF) Reserved (corresponds byte address 0x9000 0000 0xFFFF FFFF)
Memory Summary
Table shows memory address ranges device. Table depicts expanded Configuration Space (0x0180 0000 through 0x0FFF FFFF). device multiple on-chip memories associated with processors various subsystems. help simplify software development unified memory used where possible maintain consistent view device resources across masters.
Device Overview
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Table 2-3. Memory Summary
START ADDRESS 0x0000 0000 0x0010 0000 0x0011 0000 0x0080 0000 0x0082 0000 0x00E0 8000 0x00E1 0000 0x00F0 4000 0x00F1 0000 0x00F1 8000 0x0180 0000 0x01C0 0000 0x0200 0000 0x1010 0000 0x1011 0000 0x1080 0000 0x1082 0000 0x10E0 8000 0x10E1 0000 0x10F0 4000 0x10F1 0000 0x10F1 8000 0x1100 0000 0x2000 0000 0x2000 8000 0x3000 0000 0x4000 0000 0x4200 0000 0x4300 0000 0x4400 0000 0x4500 0000 0x4600 0000 0x4700 0000 0x4800 0000 0x4900 0000 0x4A00 0000 0x4C00 0000 0x5000 0000 0x8000 0000 0x9000 0000 ADDRESS 0x000F FFFF 0x0010 FFFF 0x007F FFFF 0x0081 FFFF 0x00E0 7FFF 0x00E0 FFFF 0x00F0 3FFF 0x00F0 FFFF 0x00F1 7FFF 0x017F FFFF 0x01BF FFFF 0x01FF FFFF 0x100F FFFF 0x1010 FFFF 0x107F FFFF 0x1081 FFFF 0x10E0 7FFF 0x10E0 FFFF 0x10F0 3FFF 0x10F0 FFFF 0x10F1 7FFF 0x10FF FFFF 0x1FFF FFFF 0x2000 7FFF 0x2FFF FFFF 0x3FFF FFFF 0x41FF FFFF 0x42FF FFFF 0x43FF FFFF 0x44FF FFFF 0x45FF FFFF 0x46FF FFFF 0x47FF FFFF 0x48FF FFFF 0x49FF FFFF 0x4BFF FFFF 0x4FFF FFFF 0x7FFF FFFF 0x8FFF FFFF 0xFFFF FFFF 7M-64K 128K 6048K 976K 9120K 225M 7M-48K 128K 6048K 976K 1M-96K 240M 256M-32K 256M 768M 256M 1792M SIZE (Bytes) C64x+ MEMORY Reserved Boot Reserved RAM/Cache Reserved RAM/Cache Reserved RAM/Cache Reserved Space Peripherals Reserved Boot Reserved RAM/Cache Reserved RAM/Cache Reserved RAM/Cache Reserved Reserved DDR2 Control Regs Reserved Reserved Reserved EMIFA Data (CS2) Reserved EMIFA Data (CS3) Reserved EMIFA Data (CS4) Reserved EMIFA Data (CS5) Reserved Reserved VLYNQ (Remote Data) Reserved DDR2 Memory Controller Reserved RAM/Cache Reserved RAM/Cache Reserved RAM/Cache Reserved Reserved DDR2 Control Regs Reserved Reserved Reserved EMIFA Data (CS2) Reserved EMIFA Data (CS3) Reserved EMIFA Data (CS4) Reserved EMIFA Data (CS5) Reserved Reserved VLYNQ (Remote Data) Reserved DDR2 Memory Controller Reserved DDR2 Memory Controller Reserved Reserved Reserved Peripherals Reserved EDMA PERIPHERAL MEMORY VPSS MEMORY
bootmodes that default DSPBOOTADDR 0x0010 0000 (i.e., boot modes except EMIFA Direct Boot, BOOTMODE[3:0] 0100, FASTBOOT bootloader code disables C64x+ cache (L2, L1P, L1D) that upon exit from bootloader code, C64x+ memories configured (L2CFG.L2MODE L1PCFG.L1PMODE L1DCFG.L1DMODE 0h). cache required, application code must explicitly enable cache. more information boot modes, Section 3.4.1, Boot Modes. more information bootloader, Using TMS320DM643x Bootloader Application Report (literature number SPRAAG0). EMIFA Direct Boot (BOOTMODE[3:0] 0100, FASTBOOT bootloader executed-that RAM/Cache defaults (L2CFG.L2MODE 0h); RAM/Cache defaults cache (L1PCFG.L1PMODE 7h); RAM/Cache defaults cache (L1DCFG.L1DMODE 7h). EMIFA functionally supported DM6435 device, therefore, pinned out.
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TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Table 2-4. Configuration Memory Summary
START ADDRESS 0x0180 0000 0x0181 0000 0x0181 1000 0x0181 2000 0x0182 0000 0x0183 0000 0x0184 0000 0x0185 0000 0x0188 0000 0x01BC 0000 0x01BC 0100 0x01BC 0400 0x01C0 0000 0x01C1 0000 0x01C1 0400 0x01C1 0800 0x01C1 0C00 0x01C2 0000 0x01C2 0400 0x01C2 0800 0x01C2 1000 0x01C2 1400 0x01C2 1800 0x01C2 1C00 0x01C2 2000 0x01C2 2400 0x01C2 2800 0x01C2 2C00 0x01C2 3000 0x01C2 4000 0x01C2 5400 0x01C4 0000 0x01C4 0800 0x01C4 0C00 0x01C4 1000 0x01C4 2000 0x01C6 7000 0x01C6 7800 0x01C6 8000 0x01C7 0000 0x01C7 4000 0x01C8 0000 0x01C8 1000 0x01C8 2000 0x01C8 4000 ADDRESS 0x0180 FFFF 0x0181 0FFF 0x0181 1FFF 0x0181 2FFF 0x0182 FFFF 0x0183 FFFF 0x0184 FFFF 0x0187 FFFF 0x01BB FFFF 0x01BC 00FF 0x01BC 01FF 0x01BF FFFF 0x01C0 FFFF 0x01C1 03FF 0x01C1 07FF 0x01C1 0BFF 0x01C1 FFFF 0x01C2 03FF 0x01C2 07FF 0x01C2 0FFF 0x01C2 13FF 0x01C2 17FF 0x01C2 1BFF 0x01C2 1FFF 0x01C2 23FF 0x01C2 27FF 0x01C2 2BFF 0x01C2 2FFF 0x01C2 3FFF 0x01C2 53FF 0x01C3 FFFF 0x01C4 07FF 0x01C4 0BFF 0x01C4 0FFF 0x01C4 1FFF 0x01C6 6FFF 0x01C6 77FF 0x01C6 7FFF 0x01C6 FFFF 0x01C7 3FFF 0x01C7 FFFF 0x01C8 0FFF 0x01C8 1FFF 0x01C8 3FFF 0x01C8 47FF SIZE (Bytes) 192K 3328K 255K 107K 148K C64x+ C64x+ Interrupt Controller C64x+ Powerdown Controller C64x+ Security C64x+ Revision C64x+ Reserved C64x+ Memory System Reserved Reserved Reserved Manager Trace Reserved EDMA EDMA EDMA EDMA Reserved UART0 UART1 Reserved Timer0 Timer1 Timer2 (Watchdog) PWM0 PWM1 PWM2 Reserved HECC Control HECC Reserved System Module Controller Controller Power Sleep Controller Reserved GPIO Reserved VPSS Registers Reserved EMAC Control Registers EMAC Control Module Registers EMAC Control Module MDIO Control Registers
Software must access "Reserved" locations HECC. Access HECC "Reserved" locations hang device. Device Overview Submit Documentation Feedback
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Table 2-4. Configuration Memory Summary (continued)
START ADDRESS 0x01C8 4800 0x01D0 0000 0x01D0 0800 0x01D0 1000 0x01D0 1400 0x01D0 1800 0x01E0 0000 0x01E0 1000 0x01E0 2000 ADDRESS 0x01CF FFFF 0x01D0 07FF 0x01D0 0FFF 0x01D0 13FF 0x01D0 17FF 0x01DF FFFF 0x01E0 0FFF 0x01E0 1FFF 0x0FFF FFFF SIZE (Bytes) 494K 1018K 226M-8K C64x+ Reserved McBSP0 Reserved McASP0 Control McASP0 Data Reserved EMIFA Control VLYNQ Control Registers Reserved
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Assignments
Extensive multiplexing used accommodate largest number peripheral functions smallest possible package. multiplexing controlled using combination hardware configuration device reset software programmable register settings. more information muxing, Section 3.7, Multiplexed Configurations this document.
2.5.1
(Bottom View)
Figure through Figure show bottom view package assignments four quadrants Figure through Figure show bottom view package assignments four quadrants
DDR_D[7]
DDR_D[9]
DDR_D[12]
DDR_D[14]
DDR_CLK
DDR_CLK
DDR_A[12]
DDR_A[11]
DVDDR2
DDR_D[4]
DDR_D[6]
DDR_D[8]
DDR_D[11]
DDR_D[13]
DDR_D[15]
DDR_CKE
DDR_BA[1]
DDR_A[8]
DDR_D[2]
DDR_D[3]
DDR_D[5]
DDR_DQS[0]
DDR_D[10]
DDR_DQS[1]
DDR_RAS
DDR_BA[0]
DDR_BA[2]
DDR_A[10]
DDR_D[0]
DDR_D[1]
RSV16
DDR_DQM[0]
DVDDR2
DDR_DQM[1]
DDR_CAS
DDR_WE
DDR_CS
DDR_ZN
TRST
DVDDR2
DVDDR2
DVDDR2
DVDDR2
DVDD33
EMU0
DVDDR2
DVDDR2
DVDDR2
EMU1
RESETOUT
DVDD33
CVDD
CVDD
CLKOUT0/ PWM2/ GP[84]
RESET
DVDD33
CVDD
CVDD
UCTS0 GP[87]
URXD0/ GP[85]
URTS0/ PWM0/ GP[88]
HECC_RX/ TINP1L/ URXD1/ GP[56]
RSV3
DVDD33
CVDD
CVDD
TINP0L/ GP[98]
UTXD0/ GP[86]
HECC_TX/ TOUT1L/ UTXD1/ GP[55]
RSV2
CVDD
CVDD
Figure 2-2. [Quadrant
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DDR_A[6]
DDR_A[5]
DDR_A[0]
DDR_D[16]
DDR_D[18]
DDR_D[21]
DDR_D[27]
DVDDR2
DVDDR2
DDR_A[7]
DDR_A[4]
DDR_A[2]
DDR_D[17]
DDR_D[19]
DDR_D[22]
DDR_D[24]
DDR_D[29]
DDR_A[9]
DDR_A[3]
DDR_A[1]
DDR_DQS[2]
DDR_D[20]
DDR_DQS[3]
DDR_D[25]
DDR_D[28]
DDR_D[30]
DDR_ZP
DDR_VDDDLL DDR_VSSDLL
DDR_DQM[2]
DDR_VREF
DDR_DQM[3]
DDR_D[23]
DDR_D[26]
DDR_D[31]
DVDDR2
RSV5
DVDDR2
DVDDR2
DVDDR2
DVDDR2
RSV14
RSV11
RSV12
RSV8
RSV7
CVDD
RSV13
RSV15
RSV10
RSV9
RSV6
CVDD
CVDD
DVDD33
CVDD
DVDDR2
RSV4
PLLPWR18
CVDD
CVDD
DVDD33
DVDD33
MXI/ CLKIN
Figure 2-3. [Quadrant
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CVDD
DVDD33
DVDD33
CVDD
CVDD
GP[29]
GP[28]
GP[27]
DVDD33
DVDD33
DVDD33
GP[24]/ GP[25]/ GP[26]/ (BOOTMODE2) (BOOTMODE3) (FASTBOOT)
GP[30]
DVDD33
DVDD33
GP[23]/ (BOOTMODE1)
EM_D[6]/ GP[20]
EM_D[7]/ GP[21]
GP[22]/ (BOOTMODE0)
EM_CS5/ GP[33]
RSV18
RSV19
EM_WE
EM_WAIT/ (RDY/BSY)
EM_D[3]/ GP[17]
EM_D[5]/ GP[19]
EM_D[4]/ GP[18]
EM_CS4/ GP[32]
CI2(CCD10)/ EM_A[18]/ EM_D[5]/ GP[46] CI4(CCD12)/ EM_A[16]/ EM_D[3]/ GP[48] CI5(CCD13)/ EM_A[15]/ EM_D[2]/ GP[49]
C_FIELD/ EM_A[21]/ GP[34]
C_WE/ EM_R/W/ GP[35]
YI4(CCD4)/ GP[40]
EM_OE
EM_D[0]/ GP[14]
EM_D[2]/ GP[16]
EM_D[1]/ GP[15]
GP[31]
CI0(CCD8)/ EM_A[20]/ EM_D[7]/ GP[44]
YI5(CCD5)/ GP[41]
YI2(CCD2)/ GP[38]
YI0(CCD0)/ GP[36]
EM_BA[1]/ GP[5]/ (AEM0)
EM_BA[0]/ GP[6]/ (AEM1)
EM_CS3/ GP[13]
EM_CS2/ GP[12]
CI1(CCD9)/ EM_A[19]/ EM_D[6]/ GP[45]
YI6(CCD6)/ GP[42]
YI3(CCD3)/ GP[39]
YI1(CCD1)/ GP[37]
EM_A[2]/ (CLE)/GP[8]/ (AEAW0/ PLLMS0)
EM_A[0]/ GP[7]/ (AEM2)
LCD_FIELD/ EM_A[3]/ GP[11]
CI3(CCD11)/ EM_A[17]/ EM_D[4]/ GP[47]
YI7(CCD7)/ GP[43]
GP[53]
PCLK/ GP[54]
GP[52]
EM_A[1]/ (ALE)/GP[9]/ (AEAW1/ PLLMS1)
EM_A[4]/ GP[10]/ (AEAW2/ PLLMS2)
DVDD33
Figure 2-4. [Quadrant
Device Overview
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DVDD33
AHCLKR0/ CLKR0/ GP[101]
AXR0[1]/ DX0/ GP[104]
CLKS0/ TOUT0L/ GP[97]
DVDD33
CVDD
CVDD
ACLKR0/ CLKX0/ GP[99]
AXR0[0]/ GP[105]
AXR0[2]/ GP[103]
AFSR0/ DR0/ GP[100]
DVDD33
CVDD
CVDD
AHCLKX0/ GP[108]
AFSX0/ GP[107]
AMUTE0/ GP[110]
AXR0[3]/ GP[102]
DVDD33
DVDD33
DVDD33
ACLKX0/ GP[106]
AMUTEIN0/ GP[109]
GP[4]/ PWM1
DVDD33
DVDD33
DVDD33
GP[0]
GP[1]
GP[2]
GP[3]
RSV1
DVDD33
DVDD33
RSV17
HAS/ MDIO/ GP[83]
HRDY/ MRXD2/ GP[80]
HCNTL1/ MTXEN/ GP[75]
HD14/ MTXD0/ GP[72]
HD12/ MTXD2/ GP[70]
HD6/ HD1/ VLYNQ_TXD1/ VLYNQ_RXD0/ GP[64] GP[59]
EM_A[6]/ GP[95]
EM_A[9]/ GP[92]
EM_A[12]/ GP[89]
HCS/ MDCLK/ GP[81]
HINT/ MRXD3/ GP[82]
HDS2/ MRXD0/ GP[78]
HHWIL/ MRXDV/ GP[74]
HD11/ MTXD3/ GP[69]
HD9/ MCOL/ GP[67]
HD4/ VLYNQ_RXD3/ GP[62]
HD0/ VLYNQ_ SCRUN/ GP[58]
EM_A[7]/ GP[94]
EM_A[11]/ GP[90]
HDS1/ MRXD1/ GP[79]
HCNTL0/ MRXER/ GP[76]
HD13/ MTXD1/ GP[71]
HD10/ MCRS/ GP[68]
HD7/ HD3/ VLYNQ_TXD2/ VLYNQ_RXD2/ GP[65] GP[61]
EM_A[5]/ GP[96]
EM_A[8]/ GP[93]
CI7(CCD15)/ EM_A[13]/ EM_D[0]/ GP[51]
DVDD33
DVDD33
HR/W/ MRXCLK/ GP[77]
HD15/ MTXCLK/ GP[73]
HD8/ HD5/ VLYNQ_TXD3/ VLYNQ_TXD0/ GP[66] GP[63]
VLYNQ_ CLOCK/ GP[57]
HD2/ VLYNQ_RXD1/ GP[60]
EM_A[10]/ GP[91]
CI6(CCD14)/ EM_A[14]/ EM_D[1]/ GP[50]
Figure 2-5. [Quadrant
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DDR_D[6]
DDR_D[8]
DDR_D[12]
DDR_D[15]
DDR_CLK0
DDR_CLK0
DDR_BS[1]
DDR_BS[2]
DDR_A[10]
DVDDR2
DDR_D[3]
DDR_D[4]
DDR_DQS[0]
DDR_D[10]
DDR_D[13]
DDR_DQS[1]
DDR_CKE
DDR_BS[0]
DDR_A[12]
DDR_A[11]
DDR_D[0]
DDR_D[1]
DDR_D[5]
DDR_DQM[0]
DDR_D[11]
DDR_D[14]
DDR_DQM[1]
DDR_RAS
DDR_CAS
DDR_WE
DDR_CS
DDR_D[2]
RSV17
DDR_D[7]
DDR_D[9]
DVDDR2
DVDDR2
DVDDR2
DVDDR2
TRST
DVDDR2
DVDDR2
DVDDR2
DVDDR2
DVDDR2
EMU0
EMU1
RESETOUT
DVDD33
CLKOUT0/ PWM2/ GP[84]
RESET
DVDD33
UCTS0/ GP[87]
HECC_RX/ TINP1L/ URXD1/ GP[56] HECC_TX/ TOUT1L/ UTXD1/ GP[55]
DVDD33
CVDD
CVDD
UTXD0/ GP[86]
DVDD33
CVDD
URXD0/ GP[85]
URTS0/ PWM0/ GP[88]
RSV3
CVDD
CVDD
Figure 2-6. [Quadrant
Device Overview
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DDR_A[7]
DDR_A[4]
DDR_A[1]
DDR_A[0]
DDR_D[18]
DDR_D[21]
DDR_D[22]
DDR_D[25]
DDR_D[28]
DVDDR2
DVDDR2
DDR_A[9]
DDR_A[6]
DDR_A[3]
DDR_DQS[2]
DDR_D[16]
DDR_D[19]
DDR_DQS[3]
DDR_D[23]
DDR_D[26]
DDR_D[30]
DDR_A[8]
DDR_A[5]
DDR_A[2]
DDR_DQM[2]
DDR_D[17]
DDR_D[20]
DDR_DQM[3]
DDR_D[24]
DDR_D[27]
DDR_D[29]
DDR_D[31]
DDR_ZN
DDR_ZP
DDR_VDDDLL
DDR_VSSDLL
RSV5
DVDDR2
DDR_VREF
DVDDR2
DVDDR2
DVDDR2
DVDDR2
DVDDR2
RSV12
RSV7
RSV6
RSV11 RSV15 RSV8
RSV14
RSV13
RSV9
RSV10
CVDD
CVDD
DVDD33
RSV4
DVDD33
DVDD33
CVDD
DVDD33
PLLPWR18
MXI/ CLKIN
CVDD
DVDD33
DVDD33
Figure 2-7. [Quadrant
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CVDD
CVDD
GP[27]
GP[24]/
(BOOTMODE2)
DVDD33
CVDD
DVDD33
GP[26]/ GP[23]/ (FASTBOOT) (BOOTMODE1)
GP[29]
GP[30]
CVDD
CVDD
DVDD33
GP[22]/
(BOOTMODE0)
GP[28]
EM_CS5/ GP[33]
DVDD33
EM_D[7]/ GP[21]
GP[25]/
(BOOTMODE3)
EM_CS4/ GP[32]
DVDD33
EM_D[1]/ GP[15]
EM_D[4]/ GP[18]
GP[31]
DVDD33
EM_D[3]/ GP[17]
EM_D[6]/ GP[20]
EM_D[5]/ GP[19]
DVDD33
DVDD33
DVDD33
DVDD33
EM_BA[0]/ GP[6]/ (AEM1)
EM_D[0]/ GP[14]
EM_D[2]/ GP[16]
RSV17
RSV18
RSV19
DVDD33
DVDD33
EM_OE
EM_WAIT/ (RDY/BSY)
LCD_FIELD/ EM_A[3]/ GP[11]
EM_CS3/ GP[13]
EM_A[11]/ GP[90]
CI5(CCD13)/ EM_A[15]/ EM_D[2]/ GP[49]
CI1(CCD9)/ EM_A[19]/ EM_D[6]/ GP[45] CI3(CCD11)/ EM_A[17]/ EM_D[4]/ GP[47] CI2(CCD10)/ EM_A[18]/ EM_D[5]/ GP[46]
CI0(CCD8)/ EM_A[20]/ EM_D[7]/ GP[44]
C_FIELD/ EM_A[21]/ GP[34]
C_WE/ EM_R/W/ GP[35]
YI4(CCD4)/ GP[40]
EM_WE
EM_BA[1]/ GP[5[/ (AEM0) EM_A[1]/ (ALE)/GP[9]/ (AEAW1/ PLLMS1) EM_A[2]/ (CLE)/GP[8]/ (AEAW0/ PLLMS0)
EM_A[0]/ GP[7]/ (AEM2)
EM_CS2/ GP[12]
EM_A[12]/ GP[89]
CI4(CCD12)/ EM_A[16]/ EM_D[3]/ GP[48] CI6(CCD14)/ EM_A[14]/ EM_D[1]/ GP[50]
YI6(CCD6)/ GP[42]
YI5(CCD5)/ GP[41]
YI2(CCD2) GP[38]
YI1(CCD1)/ GP[37]
YI0(CCD0)/ GP[36]
EM_A[4]/ GP[10]/ (AEAW2/ PLLMS2)
CI7(CCD15)/ EM_A[13]/ EM_D[0]/ GP[51]
YI7(CCD7)/ GP[43]
YI3(CCD3)/ GP[39]
GP[53]
PCLK/ GP[54]
GP[52]
DVDD33
Figure 2-8. [Quadrant
Device Overview
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DVDD33
TINP0L/ GP[98]
CLKS0/ TOUT0L/ GP[97]
RSV2
DVDD33
CVDD
AHCLKR0/ CLKR0/ GP[101]
AXR0[1]/ DX0/ GP[104]
AFSR0/ DR0/ GP[100]
DVDD33
CVDD
ACLKR0/ CLKX0/ GP[99]
AXR0[2]/ FSX0/ GP[103]
AXR0[3]/ FSR0/ GP[102]
DVDD33
CVDD
CVDD
AHCLKX0/ GP[108]
AXR0[0]/ GP[105]
AMUTE0/ GP[110]
DVDD33
ACLKX0/ GP[106]
AFSX0/ GP[107]
AMUTEIN0/ GP[109]
DVDD33
GP[2]
GP[3]
GP[4]/ PWM1
DVDD33
GP[0]
GP[1]
DVDD33
DVDD33
DVDD33
DVDD33
DVDD33
HCS/ MDCLK/ GP[81]
HINT/ MRXD3/ GP[82]
HHWIL/ MRXDV/ GP[74]
RSV1
DVDD33
DVDD33
DVDD33
HAS/ MDIO/ GP[83]
HDS2/ MRXD0/ GP[78]
HRDY/ MRXD2/ GP[80]
HCNTL1/ MTXEN/ GP[75]
HD12/ MTXD2/ GP[70]
HD9/ MCOL/ GP[67]
HD6/
VLYNQ_TXD1/
HD4/
VLYNQ_RXD3/
HD1/
VLYNQ_RXD0
GP[64]
GP[62]
GP[59]
EM_A[7]/ GP[94]
EM_A[9]/ GP[92]
DVDD33
HCNTL0/ MRXER/ GP[76]
HDS1/ MRXD1/ GP[79]
HD13/ MTXD1/ GP[71]
HD14/ MTXD0/ GP[72]
HD10/ MCRS/ GP[68]
HD7/
VLYNQ_TXD2/
HD3/
VLYNQ_RXD2/
GP[65]
GP[61]
HD0/ VLYNQ_ SCRUN/ GP[58]
EM_A[6]/ AD20/ GP[95]
EM_A[10]/ GP[91]
DVDD33
HR/W/ MRXCLK/ GP[77]
HD15/ MTXCLK/ GP[73]
HD11/ MTXD3/ GP[69]
HD8/
VLYNQ_TXD3/
HD5/
VLYNQ_TXD0
GP[66]
GP[63]
VLYNQ_ CLOCK/ GP[57]
HD2/
VLYNQ_RXD1/
GP[60]
EM_A[5]/ GP[96]
EM_A[8]/ GP[93]
Figure 2-9. [Quadrant
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Terminal Functions
terminal functions tables (Table through Table 2-28) identify external signal names, associated (ball) numbers along with mechanical package designator, type, whether internal pullup pulldown resistors, functional description. more detailed information device configuration, peripheral selection, multiplexed/shared pin, debugging considerations, Device Configurations section this data manual. device boot configuration pins multiplexed configuration pins- meaning they multiplexed with functional pins. These pins function device boot configuration pins only during device reset. input states these pins sampled latched into BOOTCFG register when device reset deasserted (see Note below). After device reset deasserted, values these multiplexed pins longer have hold configuration. proper device operation, external pullup/pulldown resistors required these device boot configuration pins. Section 3.9.1, Pullup/Pulldown Resistors discusses situations where external pullup/pulldown resistors required. Note: Internal chip, device reset pins RESET logically AND'd together purpose latching device boot configuration pins. values device boot configuration pins latched into BOOTCFG register when logical RESET transitions from low-to-high. Table 2-5. BOOT Terminal Functions
SIGNAL NAME TYPE OTHER BOOT GP[25]/ (BOOTMODE3) GP[24]/ (BOOTMODE2) GP[23]/ (BOOTMODE1) GP[22]/ (BOOTMODE0) GP[26]/ (FASTBOOT) EM_A[4]/GP[10]/ (AEAW2/PLLMS2) EM_A[1]/(ALE)/ GP[9]/(AEAW1/PLLMS1) I/O/Z I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 Fast Boot Fast Boot Fast Boot EMIFA Address Width (AEAW) Fast Boot Multiplier Select (PLLMS). These configuration pins serve purposes which based AEM[2:0] settings. AEM[2:0] [8-bit EMIFA (Async) Pinout Mode AEAW/PLLMS pins serve AEAW function select EMIFA Address Width. other modes, AEAW/PLLMS pins select multiplier fast boot. more details, Section 3.5.1.2, EMIFA Address Width Select (AEAW) Fast Boot Multipler Select (PLLMS). I/O/Z DVDD33 Bootmode configuration bits. These bootmode functions along with FASTBOOT function determine what device bootmode configuration selected. DM6435 device supports several types bootmodes along with FASTBOOT option; more details types/options, Section 3.4.1, Boot Modes. DESCRIPTION
EM_A[2]/(CLE)/ GP[8]/(AEAW0/PLLMS0)
I/O/Z
DVDD33
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-5. BOOT Terminal Functions (continued)
SIGNAL NAME EM_A[0]/GP[7]/ (AEM2) EM_BA[0]/GP[6]/ (AEM1) EM_BA[1]/GP[5]/ (AEM0) TYPE OTHER DVDD33 DVDD33 DVDD33 DESCRIPTION Selects EMIFA Pinout Mode DM6435 supports following EMIFA Pinout Modes: AEM[2:0] 000, EMIFA AEM[2:0] 001, 8-bit EMIFA (Async) Pinout Mode AEM[2:0] 101, 8-bit EMIFA (NAND) Pinout Mode This signal doesn't actually affect EMIFA module. only affects EMIFA pinned out. proper DM6435 device operation, this both routed 3-stated (not driven) during device reset, must pulled down external resistor. more detailed information pullup/pulldown resistors, Section 3.9.1, Pullup/Pulldown Resistors. proper DM6435 device operation, this both routed 3-stated (not driven) during device reset, must pulled external resistor. more detailed information pullup/pulldown resistors, Section 3.9.1, Pullup/Pulldown Resistors.
I/O/Z I/O/Z
I/O/Z
GP[28]
I/O/Z
DVDD33
GP[27]
I/O/Z
DVDD33
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Table 2-6. Oscillator/PLL Terminal Functions
SIGNAL NAME TYPE OTHER OSCILLATOR, MXI/ CLKIN MXVDD MXVSS PLLPWR18 MXVDD MXVDD
DESCRIPTION
Crystal input oscillator (system oscillator, typically MHz). internal oscillator bypassed, this external oscillator clock input. Crystal output oscillator power supply oscillator. board, this connected same power supply DVDDR2. Ground oscillator power supply PLLs
Input, Output, High impedance, Supply voltage, Ground, Analog signal Specifies operating supply voltage each signal more information external board connections, Section 6.6, External Clock Input From MXI/CLKIN Pin. more information, Recommended Operating Conditions table
Table 2-7. Clock Generator Terminal Functions
SIGNAL NAME TYPE OTHER CLOCK GENERATOR CLKOUT0/ PWM2/GP[84] DVDD33 This multiplexed between System Clock generator (PLL1), PWM2, GPIO. System Clock generator (PLL1), clock output CLKOUT0. This configurable other MHz-divided-down /32) clock outputs. DESCRIPTION
I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-8. RESET JTAG Terminal Functions
SIGNAL NAME TYPE OTHER RESET RESET RESETOUT DVDD33 DVDD33 DVDD33 JTAG TRST EMU1 EMU0 I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 JTAG test-port mode select input. proper device operation, oppose this pin. JTAG test-port data output JTAG test-port data input JTAG test-port clock input JTAG test-port reset. IEEE 1149.1 JTAG compatibility, IEEE 1149.1 JTAG compatibility statement portion this data sheet Emulation Emulation Device reset Reset output status pin. RESETOUT indicates when device reset. Power-on reset. DESCRIPTION
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Table 2-9. EMIFA Terminal Functions (Boot Configuration)
SIGNAL NAME TYPE OTHER EMIFA: BOOT CONFIGURATION EM_A[4]/GP[10]/ (AEAW2/PLLMS2) EM_A[1]/(ALE)/GP[9]/ (AEAW1/PLLMS1) EM_A[2]/(CLE)/GP[8]/ (AEAW0/PLLMS0) EM_BA[1]/GP[5]/ (AEM0) EM_BA[0]/GP[6]/ (AEM1) EM_A[0]/GP[7]/ (AEM2) I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 These pins multiplexed between EMIFA GPIO. When RESET asserted, these pins function EMIFA configuration pins. reset AEM[2:0] (EMIFA 8-bit Async mode), then input states AEAW[2:0] sampled EMIFA Address Width. After reset, these pins function EMIFA GPIO functions based selection. more details AEAW/PLLMS functions, Section 3.5.1.2, EMIFA Address Width Select (AEAW) Fast Boot Multipler Select (PLLMS). These pins multiplexed between EMIFA GPIO. When RESET asserted, these pins function EMIFA configuration pins. reset, input states AEM[2:0] sampled EMIFA Pinout Mode. more details, Section 3.5.1, Configurations Reset. After reset, these pins function EMIFA GPIO functions based selection. more details functions, Section 3.5.1.1, EMIFA Pinout Mode (AEM[2:0]). DESCRIPTION
I/O/Z
I/O/Z I/O/Z
I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-10. EMIFA Terminal Functions (EMIFA Pinout Mode AEM[2:0] 001)
SIGNAL NAME TYPE OTHER DESCRIPTION
EMIFA FUNCTIONAL PINS: 8-Bit ASYNC/NOR (EMIFA Pinout Mode AEM[2:0] 001) Actual functions determined PINMUX0 PINMUX1 register settings (e.g., AEAW[2:0], AEM[2:0], etc.). more details, Section 3.7, Multiplexed Configurations. This multiplexed between EMIFA GPIO. EMIFA, this Chip Select output EM_CS2 with asynchronous memories (i.e., flash). This chip select default boot boot modes. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA GPIO. EMIFA, this Chip Select output EM_CS3 with asynchronous memories (i.e., flash). Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA GPIO. EMIFA, Chip Select output EM_CS4 with asynchronous memories (i.e., flash). Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA GPIO. EMIFA, Chip Select output EM_CS5 with asynchronous memories (i.e., flash). Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between VPFE (CCDC), EMIFA, GPIO. EMIFA, read/write output EM_R/W. EMIFA (ASYNC/NOR), this wait state extension input EM_WAIT. EMIFA, output enable output EM_OE. EMIFA, write enable output EM_WE. This multiplexed between EMIFA GPIO. EM_BA[0]/GP[6]/ (AEM1) I/O/Z DVDD33 EMIFA, this Bank Address output (EM_BA[0]). When connected 8-bit asynchronous memory, this lowest order byte address. This multiplexed between EMIFA GPIO. EM_BA[1]/GP[5]/ (AEM0) I/O/Z DVDD33 EMIFA, this Bank Address output EM_BA[1]. When connected 8-bit asynchronous memory, this address.
EM_CS2/ GP[12]
I/O/Z
DVDD33
EM_CS3/ GP[13]
I/O/Z
DVDD33
EM_CS4/ GP[32]
I/O/Z
DVDD33
EM_CS5/ GP[33]
I/O/Z
DVDD33
C_WE/EM_R/W/ GP[35] EM_WAIT/ (RDY/BSY) EM_OE EM_WE
I/O/Z I/O/Z I/O/Z I/O/Z
DVDD33 DVDD33 DVDD33 DVDD33
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal Device Overview
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Table 2-10. EMIFA Terminal Functions (EMIFA Pinout Mode AEM[2:0] 001) (continued)
SIGNAL NAME C_FIELD/ EM_A[21]/GP[34] CI0(CCD8)/ EM_A[20]/GP[44] TYPE OTHER DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DESCRIPTION This multiplexed between VPFE (CCDC), EMIFA, GPIO. EMIFA, address output EM_A[21]. This multiplexed between VPFE (CCDC), EMIFA, GPIO. I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[20] AEAW[2:0] 100b. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI1(CCD9)/ EM_A[19]/GP[45] I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[19] AEAW[2:0] 100b. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI2(CCD10)/ EM_A[18]/GP[46] I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[18] AEAW[2:0] 011/100b. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI3(CCD11)/ EM_A[17]/GP[47] I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[17] AEAW[2:0] 011/100b. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI4(CCD12)/ EM_A[16]/GP[48] I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[16] AEAW[2:0] 010/011/100b. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI5(CCD13)/ EM_A[15]/GP[49] I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[15] AEAW[2:0] 010/011/100b. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI6(CCD14)/ EM_A[14]/GP[50] I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[14] AEAW[2:0] 001/010/011/100b. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI7(CCD15)/ EM_A[13]/GP[51] I/O/Z EMIFA (AEM[2:0] 001), this address output EM_A[13] AEAW[2:0] 001/010/011/100b. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[12]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[11]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[10]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[9]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[8]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[7]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[6]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[5]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[4].
I/O/Z
EM_A[12]/GP[89]
I/O/Z
EM_A[11]/GP[90]
I/O/Z
EM_A[10]/GP[91]
I/O/Z
EM_A[9]/GP[92]
I/O/Z
EM_A[8]/GP[93]
I/O/Z
EM_A[7]/GP[94]
I/O/Z
EM_A[6]/GP[95]
I/O/Z
EM_A[5]/GP[96] EM_A[4]/GP[10]/ (AEAW2/PLLMS2)
I/O/Z
I/O/Z
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TMS320DM6435 Digital Media Processor
Table 2-10. EMIFA Terminal Functions (EMIFA Pinout Mode AEM[2:0] 001) (continued)
SIGNAL NAME EM_A[3]/GP[11] EM_A[2]/(CLE)/GP[8]/ (AEAW0/PLLMS0) EM_A[1]/(ALE)/GP[9]/ (AEAW1/PLLMS1) TYPE OTHER DVDD33 DVDD33 DVDD33 DESCRIPTION This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[3]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[2]. This multiplexed between EMIFA GPIO. EMIFA, this address output EM_A[1]. This multiplexed between EMIFA GPIO. EM_A[0]/GP[7]/ (AEM2) I/O/Z DVDD33 EMIFA, this Address output EM_A[0], which least significant 32-bit word address. 8-bit asynchronous memory, this address.
I/O/Z
I/O/Z
I/O/Z
EM_D0/GP[14] EM_D1/GP[15] EM_D2/GP[16] EM_D3/GP[17] EM_D4/GP[18] EM_D5/GP[19] EM_D6/GP[20] EM_D7/GP[21]
I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z
DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 This multiplexed between EMIFA (NAND) GPIO. These pins multiplexed between EMIFA GPIO. EMIFA (AEM[2:0] 001), these pins 8-bit bi-directional data (EM_D[7:0]).
EMIFA FUNCTIONAL PINS: 8-Bit NAND (EMIFA Pinout Mode AEM[2:0] 001) EM_A[1]/(ALE)/GP[9]/ (AEAW1/PLLMS1) I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33
When used EMIFA (NAND) this Address Latch Enable output (ALE). This multiplexed between EMIFA (NAND) GPIO.
EM_A[2]/(CLE)/GP[8]/ (AEAW0/PLLMS0) EM_WAIT/ (RDY/BSY) EM_OE EM_WE
I/O/Z
When used EMIFA (NAND), this Command Latch Enable output (CLE). When used EMIFA (NAND), ready/busy input (RDY/BSY). When used EMIFA (NAND), this read enable output (RE). When used EMIFA (NAND), this write enable output (WE). This multiplexed between EMIFA (NAND) GPIO. EMIFA (NAND), this Chip Select output EM_CS2 with NAND flash. This chip select default boot boot modes. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state.
I/O/Z I/O/Z I/O/Z
EM_CS2/ GP[12]
I/O/Z
DVDD33
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TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Table 2-10. EMIFA Terminal Functions (EMIFA Pinout Mode AEM[2:0] 001) (continued)
SIGNAL NAME TYPE OTHER DESCRIPTION This multiplexed between EMIFA (NAND) GPIO. EMIFA (NAND), this Chip Select output EM_CS3 with NAND flash. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA (NAND) GPIO. EMIFA (NAND), Chip Select output EM_CS4 with NAND flash. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA (NAND) GPIO. EMIFA (NAND), Chip Select output EM_CS5 with NAND flash. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state.
EM_CS3/ GP[13]
I/O/Z
DVDD33
EM_CS4/ GP[32]
I/O/Z
DVDD33
EM_CS5/ GP[33]
I/O/Z
DVDD33
EM_D0/GP[14] EM_D1/GP[15] EM_D2/GP[16] EM_D3/GP[17] EM_D4/GP[18] EM_D5/GP[19] EM_D6/GP[20] EM_D7/GP[21]
I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z
DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 These pins multiplexed between EMIFA (NAND) GPIO. EMIFA (NAND) AEM[2:0] 001, these 8-bit bi-directional data (EM_D[7:0]).
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Table 2-11. EMIFA Terminal Functions (EMIFA Pinout Mode AEM[2:0] 101)
SIGNAL NAME TYPE OTHER DESCRIPTION
EMIFA FUNCTIONAL PINS: 8-Bit NAND (EMIFA Pinout Mode AEM[2:0] 101) Actual functions determined PINMUX0 PINMUX1 register settings (e.g., AEAW[2:0], AEM[2:0], etc.). more details, Section 3.7, Multiplexed Configurations. This multiplexed between EMIFA (NAND) GPIO. EM_A[1]/(ALE)/GP[9]/ (AEAW1/PLLMS1) I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 When used EMIFA (NAND) this Address Latch Enable output (ALE). This multiplexed between EMIFA (NAND) GPIO. EM_A[2]/(CLE)/GP[8]/ (AEAW0/PLLMS0) EM_WAIT/ (RDY/BSY) EM_OE EM_WE I/O/Z When used EMIFA (NAND) this Command Latch Enable output (CLE). When used EMIFA (NAND), ready/busy input (RDY/BSY). When used EMIFA (NAND), this read enable output (RE). When used EMIFA (NAND), this write enable output (WE). This multiplexed between EMIFA (NAND) GPIO. EMIFA, this Chip Select output EM_CS2 with NAND flash. This chip select default boot boot modes. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA (NAND) GPIO. EMIFA, this Chip Select output EM_CS3 with NAND flash. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA (NAND) GPIO. EMIFA, Chip Select output EM_CS4 with NAND flash. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state. This multiplexed between EMIFA (NAND) GPIO. EMIFA, Chip Select output EM_CS5 with NAND flash. Note: This features internal pulldown (IPD). this connected used EMIFA chip select signal, proper device operation, external pullup resistor must used ensure EM_CSx function defaults inactive (high) state.
I/O/Z I/O/Z I/O/Z
EM_CS2/GP[12]
I/O/Z
DVDD33
EM_CS3/GP[13]
I/O/Z
DVDD33
EM_CS4/GP[32]
I/O/Z
DVDD33
EM_CS5/GP[33]
I/O/Z
DVDD33
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Table 2-11. EMIFA Terminal Functions (EMIFA Pinout Mode AEM[2:0] 101) (continued)
SIGNAL NAME EM_D0/GP[14] EM_D1/GP[15] EM_D2/GP[16] EM_D3/GP[17] EM_D4/GP[18] EM_D5/GP[19] EM_D6/GP[20] EM_D7/GP[21] TYPE OTHER DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 These pins multiplexed between EMIFA (NAND) GPIO. EMIFA AEM[2:0] (NAND), these 8-bit bi-directional data (EM_D[7:0]). DESCRIPTION
I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z
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Table 2-12. DDR2 Memory Controller Terminal Functions
SIGNAL NAME AA15 AA18 AB10 AA10 AA11 AB11 AA12 AB12 AA13 AB13 AA14 AB14 AB15 I/O/Z DVDDR2 DDR2 Address Output I/O/Z DVDDR2 Bank Select Outputs (BA[2:0]). required support DDR2 memories. TYPE OTHER DDR2 Memory Controller DDR_CLK DDR_CLK DDR_CKE DDR_CS DDR_WE DDR_DQM[3] DDR_DQM[2] DDR_DQM[1] DDR_DQM[0] DDR_RAS DDR_CAS DDR_DQS[0] DDR_DQS[1] DDR_DQS[2] DDR_DQS[3] DDR_BA[0] DDR_BA[1] DDR_BA[2] DDR_A[12] DDR_A[11] DDR_A[10] DDR_A[9] DDR_A[8] DDR_A[7] DDR_A[6] DDR_A[5] DDR_A[4] DDR_A[3] DDR_A[2] DDR_A[1] DDR_A[0] I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DVDDR2 DDR2 Clock Output DDR2 Differential Clock Output DDR2 Clock Enable Output DDR2 Active Chip Select Output DDR2 Active Write Enable Output DDR2 Data Mask Outputs DQM3: upper byte data DDR_D[31:24] DQM2: DDR_D[23:16] DQM1: DDR_D[15:8] DQM0: lower byte DDR_D[7:0] DDR2 Access Signal Output DDR2 Column Access Signal Output Data Strobe Input/Outputs each byte 32-bit data bus. They outputs DDR2 memory when writing inputs when reading. They used synchronize data transfers. DQS3 upper byte DDR_D[31:24] DQS2: DDR_D[23:16] DQS1: DDR_D[15:8] DQS0: bottom byte DDR_D[7:0] DESCRIPTION
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Fore more information, Recommended Operating Conditions table
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TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Table 2-12. DDR2 Memory Controller Terminal Functions (continued)
SIGNAL NAME DDR_D[31] DDR_D[30] DDR_D[29] DDR_D[28] DDR_D[27] DDR_D[26] DDR_D[25] DDR_D[24] DDR_D[23] DDR_D[22] DDR_D[21] DDR_D[20] DDR_D[19] DDR_D[18] DDR_D[17] DDR_D[16] DDR_D[15] DDR_D[14] DDR_D[13] DDR_D[12] DDR_D[11] DDR_D[10] DDR_D[9] DDR_D[8] DDR_D[7] DDR_D[6] DDR_D[5] DDR_D[4] DDR_D[3] DDR_D[2] DDR_D[1] DDR_D[0] DDR_VREF DDR_VSSDLL DDR_VDDDLL DDR_ZN DDR_ZP AA21 AB20 AA20 AB19 AA19 AB18 AB17 AA17 AB16 AA16
TYPE
OTHER
DESCRIPTION
I/O/Z
DVDDR2
DDR2 bi-directional data configured 32-bits wide 16-bits wide.
Reference voltage input SSTL_18 buffers Ground DDR2 Power (1.8 Volts) DDR2 Digital Locked Loop Impedance control DDR2 outputs. This must connected 200- resistor DVDDR2. Impedance control DDR2 outputs. This must connected 200- resistor VSS.
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Table 2-13. EMAC MDIO Terminal Functions
SIGNAL NAME TYPE OTHER EMAC HCNTL1/MTXEN/ GP[75] HD15/MTXCLK/ GP[73] HD9/MCOL/ GP[67] HD11/MTXD3/ GP[69] HD12/MTXD2/ GP[70] HD13/MTXD1/ GP[71] HD14/MTXD0/ GP[72] HR/W/MRXCLK/ GP[77] HHWIL/MRXDV/ GP[74] HCNTL0/MRXER/ GP[76] HD10/MCRS/ GP[68] HINT/MRXD3/ GP[82] HRDY/MRXD2/ GP[80] HDS1/MRXD1/ GP[79] HDS2/MRXD0/ GP[78] I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Transmit Enable output MTXEN. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Transmit Clock input MTXCLK. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Collision Detect input MCOL. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Transmit Data output MTXD3. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Transmit Data output MTXD2. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Transmit Data output MTXD1. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Transmit Data output MTXD0. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Receive Clock input MRXCLK. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Receive Data Valid input MRXDV. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Receive Error input MRXER. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Carrier Sense input MCRS. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Receive Data input MRXD3. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Receive Data input MRXD2. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Receive data input MRXD1. This multiplexed between HPI, Ethernet (EMAC), GPIO. Ethernet mode, Receive Data input MRXD0. MDIO HCS/MDCLK/ GP[81] HAS/MDIO/ GP[83] I/O/Z I/O/Z DVDD33 DVDD33 This multiplexed between HPI, MDIO, GPIO. Ethernet mode, Management Data Clock output MDCLK. This multiplexed between HPI, MDIO, GPIO. Ethernet mode, Management Data MDIO (I/O/Z). DESCRIPTION
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Table 2-14. VLYNQ Terminal Functions
SIGNAL NAME TYPE OTHER VLYNQ VLYNQ_CLOCK/ GP[57] HD0/VLYNQ_SCRUN/ GP[58] HD8/VLYNQ_TXD3/ GP[66] HD7/VLYNQ_TXD2/ GP[65] HD6/VLYNQ_TXD1/ GP[64] HD5/VLYNQ_TXD0/ GP[63] HD4/VLYNQ_RXD3/ GP[62] HD3/VLYNQ_RXD2/ GP[61] HD2/VLYNQ_RXD1/ GP[60] HD1/VLYNQ_RXD0/ GP[59] I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 This multiplexed between VLYNQ, GPIO. VLYNQ, clock VLYNQ_CLOCK (I/O/Z). This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, Serial Clock request VLYNQ_SCRUN (I/O/Z). This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, transmit output VLYNQ_TXD3. This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, transmit output VLYNQ_TXD2. This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, transmit output VLYNQ_TXD1. This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, transmit output (VLYNQ_TXD0). This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, receive input VLYNQ_RXD3. This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, receive input VLYNQ_RXD2. This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, receive input VLYNQ_RXD1. This multiplexed between HPI, VLYNQ, GPIO. VLYNQ, receive input VLYNQ_RXD0. DESCRIPTION
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-15. Host-Port Interface Terminal Functions
SIGNAL NAME TYPE OTHER Host-Port Interface (HPI) HD0/VLYNQ_SCRUN/ GP[58] HD1/VLYNQ_RXD0/ GP[59] HD2/VLYNQ_RXD1/ GP[60] HD3/VLYNQ_RXD2/ GP[61] HD4/VLYNQ_RXD3/ GP[62] HD5/VLYNQ_TXD0/ GP[63] HD6/VLYNQ_TXD1/ GP[64] HD7/VLYNQ_TXD2/ GP[65] HD8/VLYNQ_TXD3/ GP[66] HD9/MCOL/ GP[67] HD10/MCRS/ GP[68] HD11/MTXD3/ GP[69] HD12/MTXD2/ GP[70] HD13/MTXD1/ GP[71] HD14/MTXD0/ GP[72] HD15/MTXCLK/ GP[73] HHWIL/MRXDV/ GP[74] I/O/Z I/O/Z DVDD33 This multiplexed between HPI, EMAC, GPIO. mode, this half-word identification input HHWIL (I). This multiplexed between HPI, EMAC, GPIO. mode, this control input HCNTL1 (I). state HCNTL1 HCNTL0 determines address, data, control information being transmitted between external host DM6435. This multiplexed between HPI, EMAC, GPIO. mode, this control input HCNTL0 (I). state HCNTL1 HCNTL0 determines address, data, control information being transmitted between external host DM6435. This multiplexed between HPI, EMAC, GPIO. mode, this host read write select HR/W(I). This multiplexed between HPI, EMAC, GPIO. mode, this host data strobe input HDS2 (I). This multiplexed between HPI, EMAC, GPIO. mode, this host data strobe input HDS1 (I). DVDD33 This multiplexed between HPI, VLYNQ EMAC, GPIO. mode, these pins host-port data pins HD[15:0] (I/O/Z) multiplexed internally with address lines. DVDD33 DESCRIPTION
HCNTL1/MTXEN/ GP[75]
I/O/Z
DVDD33
HCNTL0/MRXER/ GP[76] HR/W/MRXCLK/ GP[77] HDS2/MRXD0/ GP[78] HDS1/MRXD1/ GP[79]
I/O/Z
DVDD33 DVDD33 DVDD33 DVDD33
I/O/Z I/O/Z I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal Device Overview
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Table 2-15. Host-Port Interface Terminal Functions (continued)
SIGNAL NAME HRDY/MRXD2/ GP[80] HCS/MDCLK/ GP[81] HINT/RXD3/ GP[82] HAS/MDIO/ GP[83] TYPE OTHER DESCRIPTION This multiplexed between HPI, EMAC, GPIO. mode, this host ready output from host (O/Z). This multiplexed between HPI, MDIO, GPIO. mode, this active chip select input (I). This multiplexed between HPI, EMAC, GPIO. mode, this host interrupt output HINT (O/Z). This multiplexed between HPI, MDIO, GPIO. mode, this host address strobe (I). proper operation, this routed out, must pulled external resistor.
I/O/Z
DVDD33 DVDD33 DVDD33 DVDD33
I/O/Z I/O/Z
I/O/Z
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Table 2-16. VPFE Terminal Functions
SIGNAL NAME TYPE OTHER VIDEO/IMAGE (VPFE) PCLK/GP[54] I/O/Z DVDD33 This multiplexed between VPFE (CCDC) GPIO. VPFE mode, this pixel clock input (PCLK) used load image data into Controller (CCDC) pins CI[7:0] YI[7:0]. This multiplexed between VPFE (CCDC) GPIO. VPFE mode, this vertical synchronization signal (VD) that either input (slave mode) output (master mode), which signals start frame CCDC. This multiplexed between VPFE (CCDC) GPIO. VPFE mode, this horizontal synchronization signal (HD) that either input (slave mode) output (master mode), which signals start line CCDC. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI7(CCD15)/ EM_A[13]/GP[51] I/O/Z DVDD33 When used CCDC input CI7, supports several modes: 16-bit mode, input CCD15. 16-bit YCbCr mode, time multiplexed between CB7, inputs. 8-bit YCbCr mode, time multiplexed between CB7, upper 8-bit channel. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI6(CCD14)/ EM_A[14]/GP[50] I/O/Z DVDD33 When used CCDC input CI6, supports several modes: 16-bit mode, input CCD14. 16-bit YCbCr mode, time multiplexed between CB6, inputs. 8-bit YCbCr mode, time multiplexed between CB6, upper 8-bit channel. This multiplexed between VPFE (CCDC), EMIFA, GPIO. CI5(CCD13)/ EM_A[15]/GP[49] I/O/Z DVDD33 When used CCDC input CI5, supports several modes: 16-bit mode, input CCD13. 16-bit YCbCr mode, time multiplexed between inputs. 8-bit YCbCr mode, time multiplexed between CB5, upper 8-bit channel. This multiplexed between VPFE (CCDC), EMIFA, GPIO. When used CCDC input CI4, supports several modes: CI4(CCD12)/ EM_A[16]/GP[48] I/O/Z DVDD33 16-bit mode, input CCD12. 16-bit YCbCr mode, time multiplexed between inputs. 8-bit YCbCr mode, time multiplexed between CB4, upper 8-bit channel. DESCRIPTION
VD/GP[53]
I/O/Z
DVDD33
HD/GP[52]
I/O/Z
DVDD33
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal addition these default functions, YCbCr mode, VPFE Configuration register CCDCFG.YCINSWP field allows user swap function YI[7:0] CI[7:0] pins.
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TMS320DM6435 Digital Media Processor
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Table 2-16. VPFE Terminal Functions (continued)
SIGNAL NAME TYPE OTHER DESCRIPTION This multiplexed between VPFE (CCDC), EMIFA, GPIO. When used CCDC input CI3, supports several modes: CI3(CCD11)/ EM_A[17]/GP[47] I/O/Z DVDD33 16-bit mode, input CCD11. 16-bit YCbCr mode, time multiplexed between inputs. 8-bit YCbCr mode, time multiplexed between CB3, upper 8-bit channel. This multiplexed between VPFE (CCDC), EMIFA, GPIO. This CCDC input supports several modes: CI2(CCD10)/ EM_A[18]/GP[46] I/O/Z DVDD33 16-bit mode, input CCD10. 16-bit YCbCr mode, time multiplexed between inputs. 8-bit YCbCr mode, time multiplexed between CB2, upper 8-bit channel. This multiplexed between VPFE (CCDC), EMIFA, GPIO. This CCDC input supports several modes: CI1(CCD9)/ EM_A[19]/GP[45] I/O/Z DVDD33 16-bit mode, input CCD9. 16-bit YCbCr mode, time multiplexed between inputs. 8-bit YCbCr mode, time multiplexed between CB1, upper 8-bit channel. This multiplexed between VPFE (CCDC), EMIFA, GPIO. This CCDC input supports several modes: CI0(CCD8)/ EM_A[20]/GP[44] I/O/Z DVDD33 16-bit mode, input CCD8. 16-bit YCbCr mode, time multiplexed between inputs. 8-bit YCbCr mode, time multiplexed between CB0, upper 8-bit channel. This multiplexed between VPFE (CCDC) GPIO. CCDC input supports several modes: YI7(CCD7)/ GP[43] I/O/Z DVDD33 16-bit mode, input CCD7. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB7, lower 8-bit channel. This multiplexed between VPFE (CCDC) GPIO. This CCDC input supports several modes: YI6(CCD6)/ GP[42] I/O/Z DVDD33 16-bit mode, input CCD6. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB6, lower 8-bit channel. This multiplexed between VPFE (CCDC) GPIO. This CCDC input supports several modes: YI5(CCD5)/ GP[41] I/O/Z DVDD33 16-bit mode, input CCD5. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB5, lower 8-bit channel.
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Table 2-16. VPFE Terminal Functions (continued)
SIGNAL NAME TYPE OTHER DESCRIPTION This multiplexed between VPFE(CCDC) GPIO. YI4(CCD4)/ GP[40] I/O/Z DVDD33 This CCDC input supports several modes: 16-bit mode, input CCD4. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB4, lower 8-bit channel. This multiplexed between VPFE (CCDC) GPIO. YI3(CCD3)/ GP[39] I/O/Z DVDD33 This CCDC input supports several modes: 16-bit mode, input CCD3. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB3, lower 8-bit channel. This multiplexed between VPFE (CCDC) GPIO. YI2(CCD2)/ GP[38] I/O/Z DVDD33 This CCDC input supports several modes: 16-bit mode, input CCD2. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB2, lower 8-bit channel. This multiplexed between VPFE (CCDC) GPIO. YI1(CCD1)/ GP[37] I/O/Z DVDD33 This CCDC input supports several modes: 16-bit mode, input CCD1. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB1, lower 8-bit channel. This multiplexed between VPFE (CCDC) GPIO. YI0(CCD0)/ GP[36] I/O/Z DVDD3 This CCDC input supports several modes: 16-bit mode, input CCD0. 16-bit YCbCr mode, input 8-bit YCbCr mode, time multiplexed between CB0, lower 8-bit channel. This multiplexed between VPFE (CCDC), EMIFA, GPIO. VPFE mode, Controller write enable input C_WE. This multiplexed between VPFE (CCDC), EMIFA, GPIO. VPFE mode, CCDC field identification bidirectional signal C_FIELD.
C_WE/EM_R/W/ GP[35] C_FIELD/EM_A[21]/ GP[34]
I/O/Z I/O/Z
DVDD33 DVDD33
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TMS320DM6435 Digital Media Processor
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Table 2-17. Terminal Functions
SIGNAL NAME TYPE OTHER I/O/Z DVDD33 I2C, this clock. master mode, this output. slave mode, this input. When module used, proper device operation, this must pulled external resistor. I2C, this bi-directional data signal. When module used, proper device operation, this must pulled external resistor. DESCRIPTION
I/O/Z
DVDD33
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-18. Multichannel Buffered Serial Port (McBSP0) Terminal Functions
SIGNAL NAME TYPE OTHER DESCRIPTION
Multichannel Buffered Serial Port (McBSP0) more details multiplexing, Section 3.7, Multiplexed Configurations. CLKS0/TOUT0L/ GP[97] ACLKR0/CLKX0/ GP[99] AHCLKR0/CLKR0/ GP[101] AXR0[2]/FSX0/ GP[103] AXR0[3]/FSR0/ GP[102] AXR0[1]/DX0/ GP[104] AFSR0/DR0/ GP[100] I/O/Z I/O/Z I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 This multiplexed between McBSP0, Timer0, GPIO. McBSP0, McBSP0 external clock source (I). This multiplexed between McASP0, McBSP0, GPIO. McBSP0, McBSP0 transmit clock CLKX0 (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McBSP0, McBSP0 receive clock CLKR0 (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McBSP0, McBSP0 transmit frame synchronization FSX0 (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McBSP0, McBSP0 receive frame synchronization FSR0 (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McBSP0, McBSP0 data transmit output (O/Z). This multiplexed between McASP0, McBSP0, GPIO. McBSP0, McBSP0 data receive input (I).
I/O/Z I/O/Z I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-19. Multichannel Audio Serial Port (McASP0) Terminal Functions
SIGNAL NAME TYPE OTHER McASP0 AMUTEIN0/ GP[109] AMUTE0/GP[110] ACLKR0/CLKX0/ GP[99] AHCLKR0/CLKR0/ GP[101] ACLKX0/GP[106] AHCLKX0/GP[108] AFSR0/DR0/ GP[100] AFSX0/GP[107] AXR0[3]/FSR0/ GP[102] AXR0[2]/FSX0/ GP[103] AXR0[1]/DX0/ GP[104] AXR0[0]/GP[105] I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 This multiplexed between McASP0 GPIO. McASP0, McASP0 mute input AMUTEIN0 (I). This multiplexed between McASP0 GPIO. McASP0, McASP0 mute output AMUTE0 (O/Z). This multiplexed between McASP0, McBSP0, GPIO. McASP0, McASP0 receive clock ACLKR0 (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McASP0, McASP0 receive high-frequency master clock AHCLKR0 (I/O/Z). This multiplexed between McASP0 GPIO. McASP0, McASP0 transmit clock ACLKX0 (I/O/Z). This multiplexed between McASP0 GPIO. McASP0, McASP0 transmit high-frequency master clock AHCLKX0 (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McASP0, McASP0 receive frame synchronization AFSR0 (I/O/Z). This multiplexed between McASP0 GPIO. McASP0, McASP0 transmit frame synchronization AFSX0 (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McASP0, McASP0 transmit/receive (TX/RX) data AXR0[3] (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McASP0, McASP0 transmit/receive (TX/RX) data AXR0[2] (I/O/Z). This multiplexed between McASP0, McBSP0, GPIO. McASP0, McASP0 transmit/receive (TX/RX) data AXR0[1] (I/O/Z). This multiplexed between McASP0 GPIO. McASP0, McASP0 transmit/receive (TX/RX) data AXR0[0] (I/O/Z). DESCRIPTION
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-20. High-End Controller Area Network (HECC)
SIGNAL NAME TYPE OTHER HECC HECC_RX/ TINP1L/ URXD1/ GP[56] HECC_TX/ TOUT1L/ UTXD1/ GP[55] I/O/Z DVDD33 This multiplexed between HECC, Timer UART1, GPIO. HECC, this HECC receive serial data HECC_RX (I). DESCRIPTION
I/O/Z
DVDD33
This multiplexed between HECC, Timer UART1, GPIO. HECC, this HECC transmit serial data HECC_TX (O/Z).
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-21. UART0 UART1 Terminal Functions
SIGNAL NAME TYPE OTHER UART1 HECC_RX/ TINP1L/ URXD1/ GP[56] HECC_TX/ TOUT1L/ UTXD1/ GP[55] URXD0/ GP[85] UTXD0/ GP[86] UCTS0 GP[87] URTS0 PWM0 GP[88] I/O/Z DVDD33 This multiplexed between HECC, Timer UART1 (Data), GPIO. UART1 this receive data input URXD1. This multiplexed between HECC, Timer UART1 (Data), GPIO. UART1 this transmit data output UTXD1. UART0 I/O/Z I/O/Z I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 This multiplexed between UART0 (Data) GPIO. When used UART0 this receive data input URXD0. This multiplexed between UART0 (Data) GPIO. UART0 mode, this transmit data output UTXD0. This multiplexed between UART0 (Flow Control) GPIO. UART0 mode, this clear send input UCTS0. This multiplexed between UART0 (Flow Control), PWM0, GPIO. UART0 mode, this ready send output URTS0. DESCRIPTION
I/O/Z
DVDD33
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-22. PWM0, PWM1, PWM2 Terminal Functions
SIGNAL NAME TYPE OTHER PWM2 CLKOUT0/PWM2/ GP[84] I/O/Z DVDD33 This multiplexed between System Clock generator (PLL1), PWM2, GPIO. PWM2, this output PWM2. PWM1 GP[4]/PWM1 I/O/Z DVDD33 This multiplexed between GPIO PWM1. PWM1, this output PWM1. PWM0 URTS0/PWM0/ GP[88] I/O/Z DVDD33 This multiplexed between UART0 (Flow Control), PWM0, GPIO. PWM0, this output PWM0. DESCRIPTION
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-23. Timer Timer Timer Terminal Functions
SIGNAL NAME TYPE OTHER Timer external pins. Timer (watchdog) peripheral pins pinned external pins. Timer HECC_RX/ TINP1L/ URXD1/ GP[56] HECC_TX/ TOUT1L/ UTXD1/ GP[55] I/O/Z DVDD33 This multiplexed between HECC, Timer UART1 (Data), GPIO. Timer this timer input lower 32-bit counter This multiplexed between HECC, Timer UART1, GPIO. Timer this timer output lower 32-bit counter Timer TINP0L/ GP[98] CLKS0/ TOUT0L/ GP[97] I/O/Z DVDD33 DVDD33 This multiplexed between Timer GPIO. Timer this timer input lower 32-bit counter This multiplexed between McBSP0, Timer GPIO. Timer this timer output lower 32-bit counter DESCRIPTION
I/O/Z
DVDD33
I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-24. GPIO Terminal Functions
SIGNAL NAME TYPE OTHER GPIO GPIO pins DM6435 device multiplexed with other peripherals functions (e.g., VPFE, HPI, VLYNQ, EMAC/MDIO, McASP0, McBSP0, Timer Timer UART0, UART1, PWM0, PWM1, PWM2, EMIFA, CLKOUT0 pin), peripheral-specific Terminal Functions tables GPIO multiplexing. Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal DESCRIPTION
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Table 2-25. Standalone GPIO Terminal Functions
SIGNAL NAME TYPE OTHER Standalone GPIO GP[0] GP[1] GP[2] GP[3] GP[22]/ (BOOTMODE0) GP[23]/ (BOOTMODE1) GP[24]/ (BOOTMODE2) GP[25]/ (BOOTMODE3) GP[26]/ (FASTBOOT) GP[27] I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 DVDD33 proper DM6435 device operation, this must pulled external resistor. After device reset, this functions standalone GPIO proper DM6435 device operation, this must pulled down external resistor. After device reset, this functions standalone GPIO This functions standalone GPIO This functions standalone GPIO This functions standalone GPIO These pins function boot configuration pins during device reset. After device reset, these pins function standalone GPIO. This functions standalone GPIO This functions standalone GPIO This functions standalone GPIO This functions standalone GPIO DESCRIPTION
GP[28] GP[29] GP[30] GP[31]
I/O/Z I/O/Z I/O/Z I/O/Z
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-26. Reserved Terminal Functions
SIGNAL NAME I/O/Z I/O/Z I/O/Z DVDD33 DVDD33 DVDD33 DVDD33 TYPE OTHER RESERVED RSV1 RSV2 RSV3 RSV4 RSV5 RSV6 RSV7 RSV8 RSV9 RSV10 RSV11 RSV12 RSV13 RSV14 RSV15 RSV16 RSV17 RSV18 RSV19 Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. This must tied directly normal device operation. Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. This must tied directly normal device operation. Reserved. This must tied directly normal device operation. Reserved. This must tied directly normal device operation. Reserved. This must tied directly normal device operation. Reserved. This must tied directly normal device operation. Reserved. proper DM6435 device operation, this must pulled down external resistor tied VSS. Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) Reserved. (Leave unconnected, connect power ground) DESCRIPTION
Input, Output, High impedance, Supply voltage, Ground, Analog signal Internal pulldown, Internal pullup. more detailed information pullup/pulldown resistors situations where external pullup/pulldown resistors required, Section 3.9.1, Pullup/Pulldown Resistors. Specifies operating supply voltage each signal
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Table 2-27. Supply Terminal Functions
SIGNAL NAME DVDD33 Input, Output, High impedance, Supply voltage, Ground, Analog signal supply voltage (see Power-Supply Decoupling section this data manual) TYPE OTHER SUPPLY VOLTAGE PINS DESCRIPTION
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Table 2-27. Supply Terminal Functions (continued)
SIGNAL NAME DVDDR2 CVDD AB21 AB22 1.20 supply voltage (-7/-6/-5/-4/-L/-Q6/-Q5/-Q4 devices) 1.05 core supply voltage (-7/-6/-5/-4/-L/-Q5 devices) (see Power-Supply Decoupling section this data manual) DDR2 supply voltage (see Power-Supply Decoupling section this data manual) TYPE OTHER DESCRIPTION
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Table 2-28. Ground Terminal Functions
SIGNAL NAME Ground pins TYPE OTHER GROUND PINS DESCRIPTION
Input, Output, High impedance, Supply voltage, Ground, Analog signal
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Table 2-28. Ground Terminal Functions (continued)
SIGNAL NAME AA22 Ground pins TYPE OTHER DESCRIPTION
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SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Device Support 2.7.1 Development Support
offers extensive line development tools TMS320DM643x platform, including tools evaluate performance processors, generate code, develop algorithm implementations, fully integrate debug software hardware modules. tool's support documentation electronically available within Code Composer StudioIntegrated Development Environment (IDE). following products support development TMS320DM643x DMP-based applications: Software Development Tools: Code Composer StudioIntegrated Development Environment (IDE): including Editor C/C++/Assembly Code Generation, Debug plus additional development tools Scalable, Real-Time Foundation Software (DSP/BIOSTM), which provides basic run-time target software needed support application. Hardware Development Tools: Extended Development System (XDSTM) Emulator (supports TMS320DM643x multiprocessor system debug) (Evaluation Module) complete listing development-support tools TMS320DM643x platform, visit Texas Instruments site Worldwide http://www.ti.com uniform resource locator (URL). information pricing availability, contact nearest field sales office authorized distributor.
Device Development-Support Tool Nomenclature
designate stages product development cycle, assigns prefixes part numbers devices support tools. Each commercial family member three prefixes: TMX, TMP, (e.g., TMX320DM6435ZWT400). Texas Instruments recommends three possible prefix designators support tools: TMDX TMDS. These prefixes represent evolutionary stages product development from engineering prototypes (TMX/TMDX) through fully qualified production devices/tools (TMS/TMDS). Device development evolutionary flow: Experimental device that necessarily representative final device's electrical specifications. Final silicon that conforms device's electrical specifications completed quality reliability verification. Fully-qualified production device.
Support tool development evolutionary flow: TMDX TMDS Development-support product that completed Texas Instruments internal qualification testing. Fully qualified development-support product.
devices TMDX development-support tools shipped against following disclaimer: "Developmental product intended internal evaluation purposes." devices TMDS development-support tools have been characterized fully, quality reliability device have been demonstrated fully. TI's standard warranty applies.
Device Overview
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TMS320DM6435 Digital Media Processor
Predictions show that prototype devices (TMX TMP) have greater failure rate than standard production devices. Texas Instruments recommends that these devices used production system because their expected end-use failure rate still undefined. Only qualified production devices used. device nomenclature also includes suffix with device family name. This suffix indicates package type (for example, ZWT), temperature range (for example, "Blank" commercial temperature range), device speed range megahertz (for example, indicates [600-MHz]). Figure 2-10 provides legend reading complete device name TMS320DM643x platform member.
PREFIX Experimental device Qualified device DEVICE FAMILY TMS320DSP Family DEVICE C64x+DSP: DM6437 DM6435 DM6433 DM6431 DM6435 DEVICE SPEED RANGE MHz(D) Power Device TEMPERATURE RANGE (JUNCTION) Blank Commercial Grade -40°C 125°C, Automotive Grade Commercial Grade (Tape Reel) -40°C 125°C, Automotive Grade (Tape Reel) PACKAGE TYPE(A) 361-pin plastic BGA, with Pb-Free soldered balls 376-pin plastic BGA, with Pb-Free soldered balls [Green] SILICON REVISION: Blank Revision Ball Grid Array "TMX" initial devices, device number DM6437. combinations available. more information, Orderable Devices table Packing Information section. maximum frequency device MHz. PLL1 PLL2 section maximum operating frequencies PLL1 controller. device speed range symbolization indicates maximum frequency when core voltage (CVDD) determine maximum frequency core voltage 1.05 refer PLL1 PLL2 section.
Figure 2-10. Device Nomenclature
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Device Overview
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Documentation Support 2.9.1 Related Documentation From Texas Instruments
following documents describe TMS320DM643x Digital Media Processor (DMP). Copies these documents available Internet www.ti.com. Tip: Enter literature number search provided www.ti.com. current documentation that describes DM643x DMP, related peripherals, other technical collateral, available C6000 product folder www.ti.com/c6000. SPRU978 SPRU983 TMS320DM643x Subsystem Reference Guide. Describes digital signal processor (DSP) subsystem TMS320DM643x Digital Media Processor (DMP). TMS320DM643x Peripherals Overview Reference Guide. Provides overview briefly describes peripherals available TMS320DM643x Digital Media Processor (DMP). TMS320C64x TMS320C64x+ Migration Guide. Describes migrating from Texas Instruments TMS320C64x digital signal processor (DSP) TMS320C64x+ DSP. objective this document indicate differences between cores. Functionality devices that identical included. TMS320C64x/C64x+ Instruction Reference Guide. Describes architecture, pipeline, instruction set, interrupts TMS320C64x TMS320C64x+ digital signal processors (DSPs) TMS320C6000 family. C64x/C64x+ generation comprises fixed-point devices C6000 platform. C64x+ enhancement C64x with added functionality expanded instruction set. TMS320C64x+ Megamodule Reference Guide. Describes TMS320C64x+ digital signal processor (DSP) megamodule. Included discussion internal direct memory access (IDMA) controller, interrupt controller, power-down controller, memory protection, bandwidth management, memory cache.
SPRAA84
SPRU732
SPRU871
Device Overview
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TMS320DM6435 Digital Media Processor
Device Configuration
System Module Registers
system module includes status control registers required configuration device. Brief descriptions various registers shown Table 3-1. System Module registers required device configurations discussed following sections. Table 3-1. System Module Register Memory
ADDRESS RANGE 0x01C4 0000 0x01C4 0004 0x01C4 0008 0x01C4 000C 0x01C4 0010 0x01C4 0014 0x01C4 0018 0x01C4 0027 0x01C4 0028 0x01C4 002C 0x01C4 0030 0x01C4 0034 0x01C4 0038 0x01C4 003C 0x01C4 0040 0x01C4 0044 0x01C4 0048 0x01C4 004C 0x01C4 0050 0x01C4 0080 0x01C4 0084 0x01C4 0088 0x01C4 008C REGISTER ACRONYM PINMUX0 PINMUX1 DSPBOOTADDR BOOTCOMPLT BOOTCFG JTAGID HPICTL MSTPRI0 MSTPRI1 VPSS_CLKCTL VDD3P3V_PWDN DDRVTPER TIMERCTL EDMATCCFG DESCRIPTION Multiplexing Control (see Section 3.7.2.1, PINMUX0 Register Description). Multiplexing Control (see Section 3.7.2.2, PINMUX1 Register Description). Boot Address (see Section 3.4.2.3, DSPBOOTADDR Register). Boot Complete (see Section 3.4.2.2, BOOTCMPLT Register). Reserved Device Boot Configuration (see Section 3.4.2.1, BOOTCFG Register). Reserved JTAG (see Section 6.23.1, JTAG (JTAGID) Register Description(s)). Reserved Control (see Section 3.6.2.1, Control Register). Reserved Reserved Master Priority Control (see Section 3.6.1, Switch Central Resource (SCR) Priorities). Master Priority Control (see Section 3.6.1, Switch Central Resource (SCR) Priorities). VPSS Clock Control (see Section 3.3.2, VPSS Clocks). 3.3-V Powerdown Control (see Section 3.2, Power Considerations). DDR2 Enable Register (see Section 6.9.4, DDR2 Memory Controller). Reserved Timer Control (see Section 3.6.2.2, Timer Control Register). EDMA Transfer Controller Default Burst Size Configuration (see Section 3.6.2.3, EDMA Configuration Register). Reserved
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Device Configuration
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Power Considerations
DM6435 provides several means managing power consumption. described Section 6.3.4, DM6435 Power Clock Domains, DM6435 single power domain-the "Always power domain. Within this power domain, DM6435 utilizes local clock gating Power Sleep Controller (PSC) achieve power savings. more details PSC, Section 6.3.5, Power Sleep Controller (PSC) TMS320DM643x Subsystem Reference Guide (literature number SPRU978). Some DM6435 peripherals support additional power saving features. more details power saving features supported, TMS320DM643x Peripherals Overview Reference Guide (literature number SPRU983). Most DM6435 3.3-V I/Os powered-down reduce power consumption. VDD3P3V_PWDN register System Module (see Figure 3-1) used selectively power down unused 3.3-V pins. independent control, 3.3-V I/Os separated into functional groups-most which named according multiplexing groups (see Table 3-2). these groups, only buffers needed Host/EMIFA Boot Power-Up Operations powered default (CLKOUT Block, EMIFA/VPSS Block, Host Block, GPIO Block). Note: save power, other buffers powered down default. Before using these pins, user must program VDD3P3V_PWDN register power corresponding buffers. list multiplexed pins device group each belongs Section 3.7.3.1, Multiplexed Pins DM6435.
RESERVED
R-0000 0000 0000 0000
EMBK3
UR0FC
UR0DAT
TIMER1
TIMER0
PWM1
GPIO
HOST
EMBK2
EMBK1
EMBK0
CLKOUT
RESERVED
R-00
R/W-0
R/W-0
R/W-1
R/W-1
R/W-1
R/W-1
R/W-1
R/W-1
R/W-0
R/W-0
R/W-0
R/W-0
R/W-0
R/W-0
LEGEND: Read/Write; Read only; value after reset
Figure 3-1. VDD3P3V_PWDN Register Table 3-2. VDD3P3V_PWDN Register Descriptions
31:14 NAME RESERVED DESCRIPTION Reserved. Read-only, writes have effect. Reserved. This should programmed during device initialization (see Section 3.8, Device Initialization Sequence After Reset). EMIFA/VPSS Sub-Block Power Down Control. Controls power pins EMIFA/VPSS Sub-Block EMBK3 pins powered [default]. pins powered down operational. Outputs 3-stated (Hi-Z). UART0 Flow Control Block Power Down Control. Controls power pins UART0 Flow Control Block. UR0FC pins powered pins powered down operational. Outputs 3-stated (Hi-Z) [default].
more details pins belonging each block, Section 3.7, Multiplexed Configurations. Device Configuration Submit Documentation Feedback
TMS320DM6435 Digital Media Processor
Table 3-2. VDD3P3V_PWDN Register Descriptions (continued)
NAME DESCRIPTION UART0 Data Block Power Down Control. Controls power pins UART0 Data Block. UR0DAT pins powered pins powered down operational. Outputs 3-stated (Hi-Z) [default]. Timer1 Block Power Down Control. Controls power pins Timer1 Block. TIMER1 pins powered pins powered down operational. Outputs 3-stated (Hi-Z) [default]. Timer0 Block Power Down Control. Controls power pins Timer0 Block. TIMER0 pins powered pins powered down operational. Outputs 3-stated (Hi-Z) [default]. Serial Port Block Power Down Control. Controls power pins Serial Port Block (Serial Port Sub-Block Serial Port Sub-Block pins powered pins powered down operational. Outputs 3-stated (Hi-Z) [default]. PWM1 Block Power Down Control. Contros thel power PWM1 Block. PWM1 pins powered pins powered down operational. Outputs 3-stated (Hi-Z) [default]. GPIO Block Power Down Control. Controls power pins GPIO Block (GP[3:0]). Note: GPIO Block contains standalone GPIO pins group. pins powered [default]. pins powered down operational. Outputs 3-stated (Hi-Z). Host Block Power Down Control. Controls power pins Host Block. HOST pins powered [default]. pins powered down operational. Outputs 3-stated (Hi-Z). EMIFA/VPSS Sub-Block Power Down Control. Controls power pins EMIFA/VPSS Sub-Block EMBK2 pins powered [default]. pins powered down operational. Outputs 3-stated (Hi-Z). EMIFA/VPSS Sub-Block Power Down Control. Controls power pins EMIFA/VPSS Sub-Block EMBK1 pins powered [default]. pins powered down operational. Outputs 3-stated (Hi-Z). EMIFA/VPSS Sub-Block Power Down Control. Controls power pins EMIFA/VPSS Sub-Block EMBK0 pins powered [default]. pins powered down operational. Outputs 3-stated (Hi-Z). CLKOUT Block Power Down Control. Controls power CLKOUT Block. CLKOUT pins powered [default]. pins powered down operational. Outputs 3-stated (Hi-Z).
GPIO
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Device Configuration
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
Clock Considerations
Global device local peripheral clocks controlled Controllers (PLLC1 PLLC2) Power Sleep Controller (PSC). addition, System Module VPSS_CLKCTL register configures clock source Video Processing Subsystem (VPSS).
3.3.1
Clock Configurations after Device Reset
After device reset, user responsible programming Controllers (PLLC1 PLLC2) Power Sleep Controller (PSC) bring device desired clock frequency desired peripheral clock state (clock gating not). additional power savings, some DM6435 peripherals support clock gating within peripheral boundary. more details clock gating power saving features supported specific peripheral, peripheral-specific reference guides [listed/linked TMS320DM643x Peripherals Overview Reference Guide (literature number SPRU983)].
3.3.1.1 Device Clock Frequency DM6435 defaults bypass mode. bring device desired clock frequency, user should program PLLC1 PLLC2 after device reset. DM6435 supports FASTBOOT option, where upon exit from device reset internal bootloader code automatically programs PLLC1 into mode with specific multiplier divider speed device boot. While FASTBOOT option beneficial faster boot, multiplier divider selected boot exact frequency desired run-time application. user's responsibility reconfigure PLLC1 after fastboot bring device into desired clock frequency. Section 3.4.1, Boot Modes discusses different fast boot modes more detail. user must adhere various clock requirements when programming PLLC1 PLLC2: Fixed frequency ratio requirements between CLKDIV1, CLKDIV3, CLKDIV6 clock domains. more details frequency ratio requirements, Section 6.3.4, DM6435 Power Clock Domains. multiplier frequency ranges. more details multiplier frequency ranges, Section 6.7.1, PLL1 PLL2. 3.3.1.2 Module Clock State clock reset state each modules controlled Power Sleep Controller (PSC). Table shows default state each module after device-level global reset. DM6435 device four different module states-Enable, Disable, SyncReset, SwRstDisable. more information definitions module states, PSC, programming, Section 6.3.5, Power Sleep Controller (PSC) TMS320DM643x Subsystem Reference Guide (literature number SPRU978).
Device Configuration
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TMS320DM6435 Digital Media Processor
Table 3-3. DM6435 Default Module States
LPSC MODULE NAME VPSS (Master) VPSS (Slave) EDMACC EDMATC0 EDMATC1 EDMATC2 EMAC Memory Controller MDIO EMAC McASP0 VLYNQ DDR2 Memory Contoller EMIFA Enable, configuration pins AEM[2:0] Others [001b 101b] McBSP0 UART0 UART1 HECC PWM0 PWM1 PWM2 GPIO TIMER0 TIMER1 C64x+ SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable Enable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable SwRstDisable, configuration pins AEM[2:0] 000b DEFAULT MODULE STATE [PSC Register MDSTATn.STATE]
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Device Configuration
TMS320DM6435 Digital Media Processor
SPRS344C NOVEMBER 2006 REVISED JUNE 2008 www.ti.com
3.3.2
VPSS Clocks
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