KMSC8126VT8000 Freescale Semiconductor, KMSC8126VT8000 Datasheet
KMSC8126VT8000
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KMSC8126VT8000 Summary of contents
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... FIFOs per channel, FIFO generated watermarks and hungry requests, priority-based time-multiplexing between channels using 16 internal priority © Freescale Semiconductor, Inc., 2004, 2008. All rights reserved. Document Number: MSC8126 MSC8126 FC PBGA–431 20 mm × ...
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... Figure 30.Boundary Scan (JTAG) Timing Diagram . . . . . . . . . . . . 38 Figure 31.Test Access Port Timing Diagram . . . . . . . . . . . . . . . . . 39 Figure 32.TRST Timing Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . 39 and Figure 33.Core Power Supply Decoupling Raised Together . . 17 Figure 34.V CCSYN with CLKIN Figure 35.MSC8126 Mechanical Information, 431-pin FC-PBGA DDH Package CCSYN Bypass . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 Freescale Semiconductor ...
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... The QBus interface includes a bus switch, write buffer, fetch unit, and a control unit that defines four QBus banks. In addition, the QBC handles internal memory contentions. Figure 2. StarCore SC140 DSP Extended Core Block Diagram MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor SC140 SC140 Extended Core ...
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... This section includes diagrams of the MSC8126 package ball grid array layouts and pinout allocation tables. 1.1 FC-PBGA Ball Layout Diagrams Top and bottom views of the FC-PBGA package are shown in Figure 3 and Figure 4 with their ball location index numbers. MSC8126 Quad Digital Signal Processor Data Sheet, Rev Freescale Semiconductor ...
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... HD4 GND GND DDH HD7 HD15 HD9 HD60 DDH HD14 HD12 HD10 HD63 HD59 DD AB GND HD13 HD11 HD8 HD62 HD61 MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Top View GND GND GND GND GND GND HCID3 GND ...
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... GND GND HD4 DDH DDH GND HD58 HD60 HD9 DDH DD V GND HD59 HD63 HD10 HD12 DDH HD56 HD57 HD61 HD62 HD8 HD11 Freescale Semiconductor GND DD EE0 TDI TRST TCK RST PO CONF RESET HA27 HA24 HA28 HA20 DD HA26 HA18 DD HA21 HA15 ...
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... GND C11 V DD C12 GND C13 V DD C14 GND C15 GND C16 GPIO30/TIMER2/TMCLK/SDA C17 GPIO2/TIMER1/CHIP_ID2/IRQ6 MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Des. Signal Name C18 GPIO1/TIMER0/CHIP_ID1/IRQ5/ETHTXD1 C19 GPIO7/TDM3RCLK/IRQ5/ETHTXD3 C20 GPIO3/TDM3TSYN/IRQ1/ETHTXD2 C21 GPIO5/TDM3TDAT/IRQ3/ETHRXD3 C22 GPIO6/TDM3RSYN/IRQ4/ETHRXD2 D2 TDI D3 EE0 D4 EE1 ...
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... GND G21 GPIO17/TDM1TDAT/DACK1 G22 GPIO22/TDM0TCLK/DONE2/DRACK2 H2 HA20 H3 HA28 HA19 H6 TEST H7 PSDCAS/PGPL3 H8 PGTA/PUPMWAIT/PGPL4/PPBS H10 BM1/TC1/BNKSEL1 H11 ARTRY H12 AACK H13 DBB/IRQ5 H14 HTA H15 V DD H16 TT4/CS7 H17 CS4 H18 GPIO24/TDM0RSYN/IRQ14 H19 GPIO21/TDM0TSYN H20 V DD K15 V DD K16 TT2/CS5 K17 ALE Freescale Semiconductor ...
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... GND K14 CLKOUT M15 V DDH M16 HBRST M17 V DDH M18 V DDH M19 GND M20 V DDH MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Des. Signal Name K18 CS2 K19 GND K20 A26 K21 A29 K22 A28 L2 HA12 L3 HA14 L4 HA11 L5 ...
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... TSZ1 R9 TSZ3 R10 IRQ1/GBL R11 V DD R12 V DD R13 V DD R14 TT0/HA7 R15 IRQ7/DP7/DREQ4 R16 IRQ6/DP6/DREQ3 R17 IRQ3/DP3/DREQ2/EXT_BR3 R18 TS R19 IRQ2/DP2/DACK2/EXT_DBG2 R20 A17 R21 A18 R22 A16 T2 HD17 T3 HD21 T4 HD1/DSISYNC T5 HD0/SWTE U21 A12 U22 A13 V2 HD3/MODCK1 V3 V DDH V4 GND Freescale Semiconductor ...
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... HD32/D32/reserved W19 GND W20 GND W21 A7 W22 A6 Y2 HD7 Y3 HD15 Y4 V DDH Y5 HD9 MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Des. Signal Name V9 D7 V10 D10 V11 D12 V12 D13 V13 D18 V14 D20 V15 GND V16 D24 ...
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... AB3 HD13 AB4 HD11 AB5 HD8 AB6 HD62/D62 AB7 HD61/D61 AB8 HD57/D57/ETHRX_ER AB9 HD56/D56/ETHRX_DV/ETHCRS_DV AB10 HD55/D55/ETHTX_ER/reserved AB11 HD53/D53 AB12 HD50/D50 AB13 HD49/D49/ETHTXD3/reserved AB14 HD48/D48/ETHTXD2/reserved AB15 HD47/D47/ETHTXD1 AB16 HD45/D45 AB17 HD44/D44 AB18 HD41/D41/ETHRXD1 AB19 HD39/D39/reserved AB20 HD36/D36/reserved AB21 A1 AB22 V DD Freescale Semiconductor ...
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... Absolute maximum ratings are stress ratings only, and functional operation at the maximum is not guaranteed. Stress beyond the listed limits may affect device reliability or cause permanent damage. 3. Section 3.5, Thermal Considerations includes a formula for computing the chip junction temperature (T MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor CAUTION ). DD Table 2. Absolute Maximum Ratings ...
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... V 3.135 to 3.465 DDH V –0 –40 to 105 J FC-PBGA × Symbol Natural Convection (1 m/s) airflow R 26 θ θ θJB R 0.9 θJC Ψ Unit +0.2 V DDH °C °C 5 Unit 200 ft/min 21 °C/W 15 °C/W °C/W °C/W °C/W Freescale Semiconductor ...
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... To assure proper board design with regard to thermal dissipation and maintaining proper operating temperatures, evaluate power consumption for your application and use the design guidelines in Chapter 4 of this document and in MSC8102, MSC8122, and MSC8126 Thermal Management Design Guidelines (AN2601). MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor DC DC and ...
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... For designs with separate power supplies, bring up the V DDH reaches its nominal level) before V DDH V power-up. CLKIN can toggle during this period. DDH V is raised after V DDH DD and Typical Impedance (Ω PORESET V and V DD DDH and CLKIN begins to toggle as V rises. DDH Freescale Semiconductor V DD are ...
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... V 2.2 V 1.2 V o.5 V Figure 6. Start-Up Sequence: V 3.3 V 1.2 V o.5 V PORESET/TRST asserted V applied DD Figure 7. Start-Up Sequence: V MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor V = Nominal Value DDH V = Nominal Value DD 1 PORESET/TRST Deasserted CLKIN Starts Toggling PORESET/TRST Asserted V /V Applied ...
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... F 20 CLKIN F 40 BCLK F 40 REFCLK F 40 CLKOUT F 200 CORE (IO) t (time CCSYN / voltage level CCSYN Maximum in MHz 400/500 133/166 133/166 133/166 500 MHz Device Max Min Max 133.3 20 166.7 133.3 40 166.7 133.3 40 166.7 133.3 40 166.7 400 200 500 Freescale Semiconductor ...
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... TAP Table 11 summarizes the reset actions that occur as a result of the different reset sources. MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Table 9. System Clock Parameters ) Table 10. Reset Sources ...
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... Yes Yes Yes Yes Yes Yes Yes PORESET must be asserted externally for at least 16 Soft Reset (SRESET) JTAG Command: External EXTEST, CLAMP, or HIGHZ Yes Yes Yes Depends on command Yes Yes Yes Yes CLKIN cycles after deassertion to define the Reset PORESET Freescale Semiconductor ...
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... HRESET Output (I/O) SRESET Output (I/O) Figure 9. Timing Diagram for a Reset Configuration Write MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor , CNFGS, DSISYNC, DSI64, RSTCONF , RSTCONF, CNFGS, DSISYNC, DSI64 CHIP_ID[0–3], BM[0–2], SWTE, MODCK[1–2] pins are sampled ...
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... MSC8126 Quad Digital Signal Processor Data Sheet, Rev Tick Spacing (T1 Occurs at the Rising Edge of REFCLK) T2 1/4 REFCLK 1/2 REFCLK 1/6 REFCLK 1/2 REFCLK 2/10 REFCLK 1/2 REFCLK 3/4 REFCLK 4/6 REFCLK 7/10 REFCLK for 1:4, 1:6, 1:8, 1:10 for 1:3 for 1:5 Freescale Semiconductor ...
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... Values are measured from the 50% TTL transition level relative to the 50% level of the REFCLK rising edge. 3. Guaranteed by design No. Characteristic 2 30 Minimum delay from the 50% level of the REFCLK for all signals MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Table 14. AC Timing for SIU Inputs 133 0.5 3.0 3.3 2.9 3.4 4.0 1 ...
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... Freescale Semiconductor Units ...
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... Data bus inputs—ECC and parity modes Address bus/TS /TT[0–4]/TC[0–2]/ TBST/TSZ[0–3]/GBL inputs Address bus/TT[0–4]/TC[0–2]/TBST/TSZ[0–3]/GBL outputs Memory controller/ALE outputs AACK/ABB/TS/DBG/BG/BR/DBB/CS outputs MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor REFCLK 11 PSDVAL/ABB/DBB inputs inputs ...
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... Figure 12 shows the relationship between the CLKIN MSC8126 Quad Digital Signal Processor Data Sheet, Rev skew timing. Table 16. CLKOUT Skew CLKIN CLKOUT 20 Figure 12. CLKOUT and CLKIN Signals Min Max Units 0 0.85 ns –0.8 1.0 ns 2.8 — ns and timings. CLKOUT CLKIN 21 Freescale Semiconductor ...
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... DACK/DRACK/DONE delay after the 50% level of the REFCLK rising edge signal is synchronized with The DREQ according to the timings in Table 17. Figure 13 shows synchronous peripheral interaction. DACK/DONE/DRACK MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Table 17. DMA Signals . To achieve fast response, a synchronized peripheral should assert REFCLK REFCLK 37 ...
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... T ) REFCLK 1 REFCLK — 8.5 2.0 — 2.2 — 2.2 — 3.2 — — 7.4 — 6.7 — 6.5 — 6.5 — REFCLK 5 + (1.5 × REFCLK 5 + (2.5 × REFCLK 1 — REFCLK 1.0 — 1.7 — 1.5 — Freescale Semiconductor Unit ...
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... HTA released at logic 0 (DCR[HTAAD end of access; used with pull-down implementation. 4. HTA released at logic 1 (DCR[HTAAD end of access; used with pull-up implementation. Figure 14. Asynchronous Single- and Dual-Strobe Modes Read Timing Diagram MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor 100 101 112 102 103 107 ...
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... Used for single-strobe mode access. 2. Used for dual-strobe mode access. Figure 16. Asynchronous Broadcast Write Timing Diagram MSC8126 Quad Digital Signal Processor Data Sheet, Rev 100 112 201 106 108 100 112 201 202 101 102 202 109 110 111 101 102 Freescale Semiconductor ...
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... All other input signals HD[0–63] output signals HTA output signal Figure 17. DSI Synchronous Mode Signals Timing Diagram MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Table 19. DSI Inputs—Synchronous Mode Expression (0.5 ± 0.1) × HTC (0.5 ± 0.1) × HTC ...
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... Figure 19. TDM Output Signals Ref = CLKIN Expression Units Min Max — ns (0.5 ± 0.1) × — ns (0.5 ± 0.1) × — ns 1.3 — ns 1.0 — ns 2.8 — ns — 8.8 ns 2.5 — ns — 10.5 ns — 8.5 ns 2.5 — ns 308 307 310 Freescale Semiconductor ...
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... URXD and UTXD inputs high/low duration 401 URXD and UTXD inputs rise/fall time 402 UTXD output rise/fall time UTXD, URXD inputs UTXD output MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Table 22. UART Timing Expression 16 × T 401 401 400 Figure 20. UART Input Timing 402 402 Figure 21 ...
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... MSC8126 Quad Digital Signal Processor Data Sheet, Rev Table 23. Timer Timing Characteristics 500 501 502 503 Figure 22. Timer Timing Characteristics 801 802 Valid Ref = CLKIN Unit Min Max 10.0 — ns 4.0 — ns 4.0 — ns 3.1 9.5 ns 2.8 8.1 ns Min Max Unit 10 — — ns Freescale Semiconductor ...
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... ETHREF_CLK rising edge to ETHTXD[0–1], ETHTX_EN output delay. ETHREF_CLK ETHCRS_DV ETHRXD[0–1] ETHRX_ER ETHTX_EN ETHTXD[0–1] MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Table 25. MII Mode Signal Timing Characteristics 803 Valid 805 Valid Figure 24. MII Mode Signal Timing Table 26 ...
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... Max Unit 1.0 — ns 1.0 — 1.5 6 1.5 5.0 ns Valid Ref = CLKIN Ref = CLKOUT Unit Min Max Min Max — 6.1 — 6.9 ns 1.1 — 1.3 — ns — 5.4 — 6.2 ns 3.5 — 3.7 — ns 0.5 — 0.5 — ns Freescale Semiconductor ...
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... TCK clock pulse width measured at V • High • Low 703 TCK rise and fall times MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor High Impedance 604 605 Valid Figure 27. GPIO Timing Table 29. EE Pin Timing Type Asynchronous ...
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... Input Data Valid 706 Output Data Valid 707 All frequencies Unit Min Max 5.0 — 20.0 — 0.0 30.0 0.0 30.0 5.0 — 20.0 — 0.0 20.0 0.0 20.0 100.0 — 30.0 — 702 V M 703 V IH 705 Freescale Semiconductor ...
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... TDO (Output) TDO (Output) Figure 31. Test Access Port Timing Diagram TCK (Input) TRST (Input) 712 MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor 708 Input Data Valid 710 Output Data Valid 711 713 Figure 32. TRST Timing Diagram V IH 709 ...
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... The ESD protection diode can allow this to occur when V DDH + 0.8V. DDH level of V – 0.8 V before it is enabled. DDH more than 2 CCSYN CLKIN / first and then bring CCSYN V going down first and DDH by more than 0 any time, including during supply through the DD exceeds V DD Freescale Semiconductor must DDH ...
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... PCB aligned with the depopulated void on the MSC8126 located in the square defined by positions, L11, L12, L13, M11, M12, M13, N11, N12, and N13 MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Maximum IR drop Bulk/Tantalum capacitors with low ESR and ESL Figure 33 ...
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... CLKIN CLKOUT is the main clock to SDRAM. Use the following . CLKIN CLKOUT must not exceed 0.7 ns. should be pulled either HTA / / HWBS[1–3] HDBS[1–3] HWBE[1– PSDDQM[4–7] PBS[4– HDBS[1–3] HWBE[1–3] HDBE[1– and . TEA PSDVAL AACK Freescale Semiconductor / ...
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... SDRAM to ensure correct operation within your system design. The output delay listed in SDRAM specifications is usually given for a load of 30 pF. Scale the number to your specific board load using the typical scaling number provided by the SDRAM manufacturer. MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor must not exceed 10 pF. CLKOUT (if SIUMCR[INTODC] is cleared), ...
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... D Note: See MSC8102, MSC8122, and MSC8126 Thermal Management Design Guidelines (AN2601/D). 4 Ordering Information Consult a Freescale Semiconductor sales office or authorized distributor to determine product availability and place an order. Part Package Type MSC8126 Flip Chip Plastic Ball Grid Array (FC-PBGA) MSC8126 Quad Digital Signal Processor Data Sheet, Rev ° ...
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... Application Notes. Cover various programming topics related to the StarCore DSP core and the MSC8126 device. • SC140 DSP Core Reference Manual. Covers the SC140 core architecture, control registers, clock registers, program control, and instruction set. MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Package Information Notes: 1. All dimensions in millimeters. 2. Dimensioning and tolerancing per ASME Y14.5M– ...
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... Clarified the wording of note 2 in Table 24. MSC8126 Quad Digital Signal Processor Data Sheet, Rev Table 31. Document Revision History Description 2 C timing changed to GPIO timing. . DDH + 8% in Figure 2-1. DDH + 17% in Figure 2-1. DDH Table maximum and reference value to 0 Table Freescale Semiconductor ...
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... MSC8126 Quad Digital Signal Processor Data Sheet, Rev. 15 Freescale Semiconductor Revision History 47 ...
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... Freescale Semiconductor product could create a situation where personal injury or death may occur. Should Buyer ...