User manual TEXAS INSTRUMENTS TMS320C6472 DATA MANUAL REV D

[. . . ] TMS320C6472 www. ti. com SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 TMS320C6472 Fixed-Point Digital Signal Processor 1 Features 1 · Six On-Chip TMS320C64x+ Megamodules · Endianess: Little Endian, Big Endian · C64x+ Megamodule Main Features: ­ High-Performance, Fixed-Point TMS320C64x+ DSP ­ 500/625/700 MHz ­ Eight 32-Bit Instructions/Cycle ­ 4000 MIPS/MMACS (16-Bits) at 500 MHz ­ Dedicated SPLOOP Instruction ­ Compact Instructions (16-Bit) ­ Instruction Set Enhancements ­ Exception Handling ­ L1/L2 Memory Architecture: · 256K-Bit (32K-Byte) L1P Program RAM/Cache [Direct Mapped, Flexible Allocation] · 256K-Bit (32K-Byte) L1D RAM/Cache [2-Way Set-Associative, Flexible Allocation] · 4. 75M-Bit (608K-Byte) L2 Unified Mapped RAM/Cache [4-Way Set-Associative, Flexible Allocation] · L1P Memory Controller · L1D Memory Controller · L2 Memory Controller ­ Time Stamp Counter ­ One 64-Bit General-Purpose/Watchdog Timer · Shared Peripherals and Interfaces ­ EDMA Controller (64 Independent Channels) ­ Shared Memory Architecture · Shared L2 Memory Controller · 768K-Byte of RAM · Boot ROM ­ Three Telecom Serial Interface Ports (TSIPs) · Each TSIP is 8 Links of 8 Mbps per Direction ­ 32-Bit DDR2 Memory Controller (DDR2-533 SDRAM) · 256 M-Byte x 2 Addressable Memory Space ­ Two 1x Serial RapidIO® Links, v1. 2 Compliant · 1. 25-, 2. 5-, 3. 125-Gbps Link Rates · Message Passing, DirectIO Support, Error Management Extensions, and 1 · · · · · · · · · · · Congestion Control · IEEE 1149. 6 Compliant I/Os ­ UTOPIA · UTOPIA Level 2 Slave ATM Controller · 8/16-Bit Transmit and Receive Operations up to 50 MHz per Direction · User-Defined Cell Format up to 64 Bytes ­ Two 10/100/1000 Mb/s Ethernet MACs (EMACs) · Both EMACs are IEEE 802. 3 Compliant · EMAC0 Supports: ­ MII, RMII, SS-SMII, GMII, and RGMII ­ 8 Independent Transmit (TX) Channels ­ 8 Independent Receive (RX) Channels · EMAC1 Supports: ­ RMII, SS-SMII and RGMII ­ 8 Independent Transmit (TX) Channels ­ 8 Independent Receive (RX) Channels · Both EMACs (EMAC0 and EMAC1) Share MDIO Interface ­ 16-Bit Host-Port Interface (HPI) ­ One Inter-Integrated Circuit (I2C) Bus ­ Six Shared 64-Bit General-Purpose Timers System PLL and PLL Controller Secondary PLL and PLL Controller, Dedicated to EMAC Third PLL and PLL Controller Dedicated to DDR2 Memory Controller 16 General-Purpose I/O (GPIO) Pins IEEE-1149. 1 (JTAGTM) Boundary-Scan-Compatible 737-Pin Ball Grid Array (BGA) Package (ZTZ Suffix), 0. 8-mm Ball Pitch 0. 09-mm/7-Level Cu Metal Process (CMOS) 3. 3-, 1. 8-, 1. 5-, 1. 2-V I/O Supplies 1. 0-/1. 1-, 1. 2-V Core Supplies Commercial Temperature [0°C to 85°C] Extended Temperature [-40°C to 100°C] Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet. PRODUCT PREVIEW information concerns products in the formative or design phase of development. Texas Instruments reserves the right to change or discontinue these products without notice. Copyright © 2009­2010, Texas Instruments Incorporated PRODUCT PREVIEW TMS320C6472 SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 www. ti. com 1. 1 ZTZ BGA Package (Bottom View) The TMS320C6472 devices are designed for a package temperature range of 0°C to 85°C (commercial temperature range) or -40°C to 100°C (extended temperature range). NOTE Extended temperature (A) range is available only on 500-MHz and 625-MHz devices. AJ AH AF AD AG AE AC AB AA Y W V U T R P N M L K J H G F E D C B A PRODUCT PREVIEW 2 Features 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 2 4 6 8 10 12 14 16 18 20 22 24 26 28 Figure 1-1. ZTZ 737-Pin Ball Grid Array (BGA) Package (Bottom View) Copyright © 2009­2010, Texas Instruments Incorporated Submit Documentation Feedback Product Folder Link(s) :TMS320C6472 TMS320C6472 www. ti. com SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 1. 2 Description The TMS320C6472 device is a Texas Instruments next-generation fixed-point digital signal processor (DSP) targeting high-performance computing applications, including high-end industrial, mission-critical, high-end image and video, communication, media gateways, and remote access servers. [. . . ] Extended temperature (A version) range is available only on 500-MHz and 625-MHz devices. Copyright © 2009­2010, Texas Instruments Incorporated Device Operating Conditions Submit Documentation Feedback Product Folder Link(s) :TMS320C6472 111 PRODUCT PREVIEW TMS320C6472 SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 www. ti. com 6. 2 Recommended Operating Conditions (1) PARAMETER 500 MHz MIN 0. 95 1. 05 1. 14 0. 95 1. 05 1. 14 1. 14 3. 135 1. 71 1. 4 0. 7 0. 855 1. 71 1. 71 1. 71 1. 71 1. 14 1. 14 1. 14 1. 35 2. 0 0. 7 * DVDD33 VREFHSTL + 0. 10 VREFSSTL + 0. 125 -0. 5 -0. 5 -0. 3 -0. 3 3. 3-V pins (except I2C pins) 0. 9 1. 8 1. 8 1. 8 1. 8 1. 2 1. 2 1. 2 1. 5/1. 8 625 MHz 700 MHz 500 MHz NOM 1. 0 1. 1 1. 2 1. 0 1. 1 1. 2 1. 2 3. 3 1. 8 MAX UNIT 1. 05 1. 16 1. 26 1. 05 1. 16 1. 26 1. 26 3. 465 1. 89 1. 9 0. 95 0. 945 1. 89 1. 89 1. 89 1. 89 1. 26 1. 26 1. 26 1. 98 DVDD33 + 0. 5 DVDD33 + 0. 5 DVDD15 + 0. 3 DVDD18 + 0. 3 0. 8 0. 3 * DVDD33 VREFHSTL - 0. 1 VREFSSTL - 0. 125 V V V V V V V V V V V V V V V V CVDD Supply voltage, Core CVDD2 CVDD1 DVDD33 DVDD18 DVDD15 VREFHSTL (0. 5 * DVDD15) VREFSSTL (0. 5 * DVDD18) AVDDA1 AVDDA2 AVDDA3 AVDDA4 DVDDD AVDDA AVDDT DVDDR Supply voltage, SRIO Core 625 MHz 700 MHz Supply volttage, 1. 2-V DDR Core Supply voltage, 3. 3-V I/O Supply voltage, 1. 8-V I/O (DDR) Supply voltage, 1. 8-V/1. 5-V I/O (RGMII) Reference voltage, RGMII I/O Reference voltage, DDR2 I/O Analog supply voltage, PLL1 (System PLL) Analog supply voltage, PLL2 (EMAC PLL) Analog supply voltage, PLL3 (DDR PLL) Analog supply voltage, DDR SRIO Digital supply voltage SRIO Analog supply voltage SRIO Termination voltage SRIO Regulator supply voltage PRODUCT PREVIEW VIH High-level input voltage I2C pins RGMII pins DDR2 memory controller pins 3. 3-V pins (except I2C pins) V VIL Low-level input voltage I2C pins RGMII pins DDR2 memory controller pins CVDD = CVDD2 = 1. 0 V, CPU frequency = 500 MHz V 2. 38 PCDD Core supply power (2) CVDD = CVDD2 = 1. 1 V, CPU frequency = 625 MHz CVDD = CVDD2 = 1. 2 V, CPU frequency = 700 MHz 3. 76 W 5. 42 (1) (2) Operating conditions are at 500 MHz, 625 MHz, or 700 MHz. Assumes the following conditions: CPU utilization 30% DSP/60% control; DDR2 at 30% utilization (266 MHz), 35% writes, 32 bits, 15% bit switching; TSIP0, TSIP1, and TSIP2 at 20% utilization, 15% switching; UTOPIA 50 MHz, 16-bit at 50% utilization, 15% switching EMAC0, 1000 Mbps, RGMII, 50% utilization, 50% switching; EMAC1 disabled; SRIO both lanes disabled; all timers active; HPI disabled; I2C enabled at 10% utilization; room temperature (25°C). For more details on core and I/O activity, see the TMS320C6472/TMS320TCI6486 Power Consumption Summary (literature number SPRAAS4). Device Operating Conditions Submit Documentation Feedback Product Folder Link(s) :TMS320C6472 Copyright © 2009­2010, Texas Instruments Incorporated 112 TMS320C6472 www. ti. com SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 Recommended Operating Conditions (continued) PARAMETER 3. 3-V Supply (DVDD33) 1. 8-V Supplies, including PLLs (DVDD18, AVDDA1, AVDDA2, AVDDA3, AVDDA4 1. 5-V Supplies (DVDD15, DVDDR) 1. 2-V Supplies (CVDD1, AVDDA, DVDDD, AVDDT) MIN NOM 0. 2 MAX UNIT 0. 26 W 0. 05 0. 28 PDDD I/O supply power (2) Copyright © 2009­2010, Texas Instruments Incorporated Device Operating Conditions Submit Documentation Feedback Product Folder Link(s) :TMS320C6472 113 PRODUCT PREVIEW TMS320C6472 SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 www. ti. com 6. 3 Electrical Characteristics Over Recommended Ranges of Supply Voltage and Operating Case Temperature (Unless Otherwise Noted) PARAMETER 3. 3 V pins (except I2C pins) I2C pins TEST CONDITIONS (1) DVDD33 = MIN, IOH = MAX DVDD33 = MIN, IOH = MAX MIN 0. 8 * DVDD33 0. 8 * DVDD33 DVDD15 - 0. 4 DVDD18 - 0. 4 DVDD33 = MIN, IOL = MAX Pulled up to 3. 3 V, 3 mA sink current 0. 4 0. 4 0. 4 0. 4 VI = VSS to DVDD33, pins without internal pull-up or pull-down resistor 3. 3-V pins (except I2C pins) VI = VSS to DVDD33, pins with internal pull-up resistor VI = VSS to DVDD33, pins with internal pull-down resistor I2C pins RGMII pins DDR2 memory controller pins E Class Buffers EMU[18:0] and all 3. 3-V Ethernet, except MCRS0_RMCRSDV0, MCOL0, GMDIO, and GMDCLK D Class Buffers GPIO[15:0], TDO, HOUT, and SYSCLKOUT 0. 1 * DVDD33 VI 0. 9 * DVDD33 TYP MAX UNIT V V V V V V V V VOH High-level ouput voltage RGMII pins DDR2 memory controller pins 3. 3-V pins (except I2C pins) I2C pins VOL Low-level ouput voltage RGMII pins DDR2 memory controller pins -1 1 uA PRODUCT PREVIEW 50 100 400 uA II Input current (DC) -400 -100 -50 uA -10 -1 -1 10 1 1 uA uA uA -7 mA -3 mA IOH High-level output current C Class Buffers - HPI, TSIP, UTOPIA, BOOTACTIVE, WDOUT, RESETSTAT, TIMO2, MCRS0_RMCRSDV0, MCOL0, GMDIO, and GMDCLK RGMII pins DDR pins -3 mA -8 -13. 4 mA mA (1) 114 For test conditions shown as MIN, MAX, or NOM, use the appropriate value specified in the recommended operating conditions table. Device Operating Conditions Submit Documentation Feedback Product Folder Link(s) :TMS320C6472 Copyright © 2009­2010, Texas Instruments Incorporated TMS320C6472 www. ti. com SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 Electrical Characteristics Over Recommended Ranges of Supply Voltage and Operating Case Temperature (Unless Otherwise Noted) (continued) PARAMETER E Class Buffers EMU[18:0] and all 3. 3-V Ethernet, except MCRS0_RMCRSDV0, MCOL0, GMDIO, and GMDCLK D Class Buffers GPIO[15:0], TDO, HOUT, and SYSCLKOUT IOL Low-level output current C Class Buffers - HPI, TSIP, UTOPIA, BOOTACTIVE, WDOUT, RESETSTAT, TIMO2, MCRS0_RMCRSDV0, MCOL0, GMDIO, and GMDCLK RGMII pins DDR pins 3. 3-V pins IOZ Off-state output current RGMII pins DDR pins commercial temperature extended temperature (2) -10 -10 -10 0 -40 TEST CONDITIONS (1) MIN TYP MAX UNIT 7 mA 3 mA 3 mA 8 13. 4 20 10 10 85 mA mA uA uA uA TC Operating case temperature °C 100 (2) Extended temperature (A) range is available only on 500-MHz and 625-MHz devices. Copyright © 2009­2010, Texas Instruments Incorporated Device Operating Conditions Submit Documentation Feedback Product Folder Link(s) :TMS320C6472 115 PRODUCT PREVIEW TMS320C6472 SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 www. ti. com 7 C64x+ Peripheral Information and Electrical Specifications 7. 1 Parameter Information Tester Pin Electronics 42 W 3. 5 nH Transmission Line Z0 = 50 W (A) Data Sheet Timing Reference Point Output Under Test Device Pin (A) 4. 0 pF 1. 85 pF A. The data sheet provides timing at the device pin. For output timing analysis, the tester pin electronics and its transmission line effects must be taken into account. A transmission line with a delay of 2 ns or longer can be used to produce the desired transmission line effect. It is not necessary to add or subtract the transmission line delay (2 ns or longer) from the data sheet timings. Input requirements in this data sheet are tested with an input slew rate of 4 Volts per nanosecond (V/ns) at the device pin. PRODUCT PREVIEW Figure 7-1. Test Load Circuit for AC Timing Measurements The load capacitance value stated is only for characterization and measurement of AC timing signals. This load capacitance value does not indicate the maximum load the device is capable of driving. 7. 1. 1 3. 3-V Signal Transition Levels All input and output timing parameters are referenced to 1. 5 V for both "0" and "1" logic levels. Vref = 1. 5 V Figure 7-2. Input and Output Voltage Reference Levels for AC Timing Measurements All rise and fall transition timing parameters are referenced to VIL MAX and VIH MIN for input clocks, VOLMAX and VOH MIN for output clocks. Vref = VIH MIN (or VOH MIN) Vref = VIL MAX (or VOL MAX) Figure 7-3. Rise and Fall Transition Time Voltage Reference Levels 7. 1. 2 3. 3-V Signal Transition Rates All timings are tested with an input edge rate of 4 Volts per nanosecond (V/ns). 7. 1. 3 Timing Parameters and Board Routing Analysis The timing parameter values specified in this data sheet do not include delays by board routings. As a good board design practice, such delays must always be taken into account. Timing values may be 116 C64x+ Peripheral Information and Electrical Specifications Copyright © 2009­2010, Texas Instruments Incorporated Submit Documentation Feedback Product Folder Link(s) :TMS320C6472 TMS320C6472 www. ti. com SPRS612D ­ JUNE 2009 ­ REVISED JULY 2010 adjusted by increasing/decreasing such delays. TI recommends utilizing the available I/O buffer information specification (IBIS) models to analyze the timing characteristics correctly. To properly use IBIS models to attain accurate timing analysis for a given system, see the Using IBIS Models for Timing Analysis application report (literature number SPRA839). If needed, external logic hardware such as buffers may be used to compensate any timing differences. 7. 2 Recommended Clock and Control Signal Transition Behavior All clocks and control signals must transition between VIH and VIL (or between VIL and VIH) in a monotonic manner. 7. 3 7. 3. 1 Power Supplies Power-Supply Sequencing TI recommends the power-supply sequence options shown in Figure 7-4 and Figure 7-5. For Option 2, after the DVDD33 supply is stable, the remaining power supplies can be powered up at the same time as CVDD as long as their supply voltage never exceeds the CVDD voltage until CVDD is stable. Note that the word stable means voltages that have reached a valid level as described in Section 6. 2. Some TI power-supply devices include an "auto-track" feature that can be used to ensure multiple supply outputs ramp at the same time to prevent one being higher than another during startup. In all of these sequencing requirements, the intent is to prevent a subsequent power supply voltage from exceeding a previous power supply until the previous supply has reached a stable value. DVDD33 CVDD CVDD1 CVDD2 1 2 DVDD18 and other 1. 8-V supplies VREFSSSTL (DDR2) DVDD15 and other 1. 5-V supplies VREFHSTL (RGMII) 1. 2-V SERDES supplies 4 3 Figure 7-4. [. . . ] TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release. Addendum-Page 1 PACKAGE OPTION ADDENDUM www. ti. com 22-Jul-2010 In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis. Addendum-Page 2 IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All products are sold subject to TI's terms and conditions of sale supplied at the time of order acknowledgment. TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI's standard warranty. [. . . ]