Datasheet

ManualsBrandsNXP SEMICONDUCTORS ManualsMicrocontrollers, Microprocessors & QuartzesEmbedded microcontroller PBGA 516 (27x27) 32-Bit 264 MHz I/O number 32

Freescale Semiconductor

Data Sheet: Advance Information

Document Number: MPC5674F

Rev. 9, 11/2012

MPC5674F

TEPBGA–516

27mm x 27mm

TEPBGA–324

23mm x 23mm

TEPBGA–416

27mm x 27mm

• Dual issue, 32-bit CPU core complex (e200z7)

– Compliant with the Power Architecture



embedded

Summary of content (133 pages)

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Freescale Semiconductor Data Sheet: Advance Information Document Number: MPC5674F Rev.
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Table of Contents 1 2 3 4 Ordering Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 1.1 Orderable Parts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 1.2 MPC567xF Family Differences . . . . . . . . . . . . . . . . . . . .4 MPC5674F Blocks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 2.1 Block Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Pin Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Ordering Information 1 Ordering Information 1.1 Orderable Parts Figure 1 and Table 1 describe and list the orderable part numbers for the MPC5674F. M PC 5674F F 3 M VR 3 R Qualification status Core code Note: Not all options are available on all devices. Refer to Table 1.
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Ordering Information 1.2 MPC567xF Family Differences Table 2 lists the differences between the MPC567xF devices. Refer to the MPC5674F Reference Manual for a full feature list and comparison. Table 2.
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MPC5674F Blocks 2 MPC5674F Blocks 2.1 Block Diagram Figure 2 shows a top-level block diagram of the MPC5674F device.
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Pin Assignments 3.1 324-ball TEPBGA Pin Assignments Figure 3 shows the 324-ball TEPBGA pin assignments. The same information is shown in Figure 4 through Figure 5.
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Pin Assignments A 1 2 3 4 5 6 7 VSS VDD RSTOUT ANA0 ANA1 ANA4 ANA5 VSS VDD TEST ANA2 ANA3 ANA6 ANA7 VSS VDD ANA8 ANA10 ANA9 ANA13 ANA17 ANA19 ANA21 C VSS VDD ANA11 ANA12 ANA14 ANA16 ANA18 ANA20 D B VDDEH1 C ETPUA21 ETPUA26 D ETPUA23 ETPUA25 ETPUA31 8 9 ANA15 VDDA_A0 10 11 VRH_A VRL_A VDDA_A0 VSSA_A1 A REF– B BYPCA E ETPUA20 ETPUA22 ETPUA24 ETPUA30 F ETPUA13 ETPUA14 ETPUA15 ETPUA27 MPC5674F 324 TEPBGA (as viewed from top through the package) G ETPUA10
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Pin Assignments 12 13 14 REF– REF– A VDDA_ B0 BYPCB1 BYPCB1 15 16 17 18 19 20 21 22 VRL_B VRH_B ANB2 ANB3 ANB6 ANB7 ANB22 VSS ANB0 ANB1 ANB4 ANB5 ANB19 ANB23 VSS VSS B REF– VDDA_ B1VSSA_ B0 BYPCB C ANA23 ANB10 ANB9 ANB11 ANB12 ANB14 ANB16 ANB20 D ANA22 ANB8 ANB13 ANB15 ANB17 ANB18 ANB21 VSS A TCRCLKC B ETPUC0 VDDEH7 C ETPUC1 ETPUC3 ETPUC2 D ETPUC5 ETPUC10 ETPUC11 ETPUC4 E ETPUC12 ETPUC14 ETPUC13 ETPUC9 F MPC5674F 324 TEPBGA (as viewed from top through the
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Pin Assignments 3.2 416-ball TEPBGA Pin Assignments Figure 6 shows the 416-ball TEPBGA pin assignments in one figure. The same information is shown in Figure 7 through Figure 10.
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Pin Assignments A 1 2 3 4 5 6 7 VSS VDD RSTOUT ANA0 ANA4 ANA8 ANA11 ANA15 VDDA_A0 VSS VDD TEST ANA1 ANA5 ANA10 VSS VDD ANA2 ANA6 VSS VDD ANA3 B VDDEH1 C ETPUA30 ETPUA31 D ETPUA27 ETPUA28 ETPUA29 8 9 10 11 12 13 REFBYPCA1 VRL_A VRH_A AN28 A ANA14 VDDA_A1 VSSA_A1 REFBYPCA AN24 AN27 B ANA9 ANA13 ANA17 ANA19 ANA21 ANA23 AN26 C ANA7 ANA12 ANA16 ANA18 ANA20 ANA22 AN25 D E ETPUA23 ETPUA24 ETPUA25 ETPUA26 E F ETPUA19 ETPUA20 ETPUA21 ETPUA22 F MPC56
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Pin Assignments 14 15 16 17 18 19 20 21 22 23 24 25 26 A AN32 AN36 VDDA_B0 REFBYPCB1 VRL_B VRH_B ANB7 ANB11 ANB14 ANB17 ANB21 ANB23 VSS B AN29 AN33 VDDA_B1 VSSA_B0 REFBYPCB ANB6 ANB8 ANB10 ANB15 ANB18 ANB22 VSS C AN30 AN34 AN37 AN38 ANB0 ANB4 ANB5 ANB12 ANB16 ANB19 VSS D AN31 AN35 AN39 ANB1 ANB2 ANB3 ANB9 ANB13 ANB20 VSS A TCRCLKC B ETPUC0 ETPUC1 C VDDEH7 ETPUC2 ETPUC3 D E VDDEH7 ETPUC4 ETPUC5 ETPUC6 E F ETPUC7 ETPUC8 ETPUC9 ETPUC10 F MPC5
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Pin Assignments 1 2 3 4 5 6 7 8 9 10 11 12 13 PLLCFG1 PLLCFG2 VDDEH1 VDDE2 VDDE2 VSS VSS P RDY VDDE2 VDDE2 VSS VSS R P TXDB R JCOMP RESET PLLCFG0 T VDDE2 MCKO MSEO1 EVTI VDDE2 VDDE2 VDDE2 VSS T U EVTO MSEO0 MDO0 MDO1 VDDE2 VDDE2 VDDE2 VSS U V MDO2 MDO3 MDO4 MDO5 V W MDO6 MDO7 MDO8 VDDE2 W Y MDO9 MDO10 MDO11 MDO15 AA MDO12 MDO13 MDO14 VDD33_2 AB TDO TCK TMS VDD AC VDDE2 TDI VDD VSS VDD VSS MPC5674F 416-ball TEPBGA AD ENGCLK
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Pin Assignments 14 15 16 17 18 19 20 21 22 23 24 25 26 P VSS VSS VSS VSS ETPUB7 ETPUB8 ETPUB9 ETPUB10 P R VSS VSS VSS VSS ETPUB3 ETPUB4 ETPUB5 ETPUB6 R T VSS VSS VSS VSS TCRCLKB ETPUB0 ETPUB1 ETPUB2 T U VSS VSS VSS VSS ETPUB19 ETPUB18 ETPUB17 ETPUB16 U V ETPUB26 ETPUB22 ETPUB21 ETPUB20 V W REGSEL ETPUB25 ETPUB24 ETPUB23 W MPC5674F 416-ball TEPBGA Y ETPUB29 ETPUB28 ETPUB27 REGCTL Y (as viewed from top through the package) (4 of 4) VDD33_3 ETPUB30 VDDREG VSSSYN AA
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Pin Assignments 3.3 516-ball TEPBGA Pin Assignments Figure 11 shows the 516-ball TEPBGA pin assignments in one figure. The same information is shown split into four quadrants in Figure 12 through Figure 15.
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Pin Assignments 1 2 3 4 5 6 7 A VDD RSTOUT ANA0 ANA4 ANA9 ANA11 ANA15 VDDA_A0 B VDDEH1 VSS VDD TEST ANA1 ANA5 ANA10 VSS VDD ANA2 ANA6 VSS VDD E ETPUA23 ETPUA24 ETPUA25 ETPUA26 F ETPUA19 ETPUA20 ETPUA21 ETPUA22 C ETPUA30 ETPUA31 D ETPUA27 ETPUA28 ETPUA29 8 9 10 11 12 13 REFBYPCA1 VRL_A VRH_A AN28 A ANA14 VDDA_A1 VSSA_A1 REFBYPCA AN24 AN27 B ANA7 ANA13 ANA17 ANA19 ANA21 ANA22 AN25 C ANA3 ANA8 ANA12 ANA16 ANA18 ANA20 ANA23 AN26 D VSS VDD VSS V
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Pin Assignments 14 15 16 17 18 19 20 21 22 23 24 25 A AN29 AN36 VDDA_B0 REFBYPCB1 VRL_B VRH_B ANB5 ANB9 ANB12 ANB18 ANB21 VSS B AN30 AN32 VDDA_B1 VSSA_B0 REFBYPCB ANB4 ANB8 ANB10 ANB13 ANB19 ANB22 VSS C AN31 AN34 AN39 AN37 ANB0 ANB7 ANB6 ANB11 ANB15 ANB20 VSS D AN33 AN35 AN38 ANB1 ANB2 ANB3 ANB14 ANB16 ANB17 VSS E VSS VSS VSS VSS VSS VSS ANB23 VSS VSS F VSS VDDE10 VDDE10 26 A VSS B ETPUC0 ETPUC1 C VDDEH7 ETPUC2 ETPUC3 D VDDEH7 ETPU
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Pin Assignments 1 2 3 4 5 6 7 8 9 10 11 12 13 P D_ADD9 D_ADD10 D_ADD11 VDDEH1 D_WE1 VDD33_1 VDDE2 VDDE2 VSS VSS P R D_ADD12 D_ADD13 D_ADD14 D_ADD15 D_ADD16 VDDE2 VDDE2 VSS VSS R VDDE2 VDDE2 VDDE2 VSS T VDDE2 VDDE2 VDDE2 VSS U T VDDE2 D_ADD18 D_ADD19 D_ADD20 D_ADD17 D_CS3 U D_CS2 JCOMP RDY MCKO MSEO1 V EVTI EVTO MDO0 MDO2 MDO3 W MDO4 MDO5 MDO6 VDDE2 MDO8 Y MDO7 MDO9 MDO10 MDO11 MDO12 AA MDO13 MDO14 MDO15 VDD33_1 VDDE8 AB TDO TCK TMS VDD V
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Pin Assignments 14 15 16 17 18 19 20 21 P VSS VSS VSS VSS R VSS VSS VSS VSS ETPUB9 ETPUB12 ETPUB14 ETPUB15 D_RD_WR R T VSS VSS VSS VSS ETPUB17 ETPUB3 ETPUB7 ETPUB8 ETPUB10 ETPUB11 T U VSS VSS VSS VSS ETPUB23 ETPUB1 ETPUB2 ETPUB4 ETPUB5 ETPUB6 U VDDE10 ETPUB13 MPC5674F 516-ball TEPBGA V 22 23 24 25 D_OE D_ALE 26 D_DAT0 D_DAT1 P ETPUB21 ETPUB22 ETPUB16 TCRCLKB ETPUB0 V (as viewed from top through the package) (4 of 4) W ETPUB25 ETPUB29 REGSEL ETPUB20 ETPUB19 ETPUB
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Pin Assignments 3.4 Signal Properties and Muxing See Appendix A, Signal Properties and Muxing, for a listing and description of the pin functions and properties. MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 4 Electrical Characteristics This section contains detailed information on power considerations, DC/AC electrical characteristics, and AC timing specifications for the MPC5674F. The electrical specifications are preliminary and are from previous designs, design simulations, or initial evaluation. These specifications may not be fully tested or guaranteed at this stage of the product life cycle, however for production silicon these specifications will be met.
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Electrical Characteristics 1 Functional operating conditions are given in the DC electrical specifications. Absolute maximum ratings are stress ratings only, and functional operation at the maxima is not guaranteed. Stress beyond the listed maxima may affect device reliability or cause permanent damage to the device. 2 2.0 V for 10 hours cumulative time, 1.2V +10% for time remaining. 3 6.4 V for 10 hours cumulative time, 5.0V +10% for time remaining.
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Electrical Characteristics Table 5. Thermal Characteristics, 516-pin TEPBGA Package1 Characteristic Symbol Value Unit RJA 25 °C/W RJA 18 °C/W Junction to Ambient (@200 ft./min., Single layer board) RJMA 20 °C/W Junction to Ambient (@200 ft./min.
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Electrical Characteristics 6 Indicates the average thermal resistance between the die and the case top surface as measured by the cold plate method (MIL SPEC-883 Method 1012.1) with the cold plate temperature used for the case temperature. 7 Thermal characterization parameter indicating the temperature difference between package top and the junction temperature per JEDEC JESD51-2. 4.2.
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Electrical Characteristics package. A small amount of epoxy is placed over the thermocouple junction and over about 1 mm. of wire extending from the junction. The thermocouple wire is placed flat against the package case to avoid measurement errors caused by cooling effects of the thermocouple wire.
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Electrical Characteristics 4 5 “FM on” = FM depth of ±2% K = 30 dBV Table 8. EMC Radiated Emissions Operating Behaviors: 516 BGA Symbol Description Radiated emissions, electric field and magnetic field VRE_TEM Radiated emissions, electric field and magnetic field VRE_TEM fOSC fSYS Frequency band (MHz) Level (max.) VDD = 1.2 V VDDE = 3.3 V VDDEH = 5 V TA = 25 °C 516 BGA EBI on CLK on FM off 40 MHz crystal 264 MHz (fEBI_CAL = 66 MHz) 0.
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Electrical Characteristics Table 10. PMC Operating conditions Name Parameter Condition Min Typ Max Unit Note VDDREG Supply voltage VDDREG LDO5V / SMPS5V mode 5V nominal 4.5 5 5.5 V 1 VDDREG Supply voltage VDDREG LDO3V mode 3V nominal 3.0 3.3 3.6 V 1 VDD33 Supply voltage VDDSYN / LDO3V mode VDD33 3.3V nominal 3.0 3.3 3.6 V 2 VDD Core supply voltage 1.14 1.2 1.
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Electrical Characteristics Table 11. PMC Electrical Specifications (continued) ID Name Parameter Min Typ Max Unit 4c — LVD 1.2V Hysteresis 15 20 25 mV 4d VLVDSTEP12 Trimming step LVD 1.2V — 10 — mV 5 IREGCTL VRC DC current output on REGCTL — — 20 mA 6 — Voltage regulator 1.2V current consumption VDDREG — 3 — mA 7 VDD33OUT Nominal VREG 3.3V output — 3.3 — V 7a — Untrimmed VREG 3.
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Electrical Characteristics Table 11. PMC Electrical Specifications (continued) ID Name Min Typ Max Unit — 30 — mV 12d VLVDSTEPREG Trimming step LVD VDDREG (LDO3V / LDO5V mode) — 30 — mV 13 — 4.
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Electrical Characteristics 4.6 Power Up/Down Sequencing There is no power sequencing required among power sources during power up and power down in order to operate within specification as long as the following two rules are met: • • When VDDREG is tied to a nominal 3.3V supply, VDD33 and VDDSYN must be both shorted to VDDREG. When VDDREG is tied to a 5V supply, VDD33 and VDDSYN must be tied together and shall be powered by the internal 3.3V regulator.
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Electrical Characteristics If VDD is powered up first, then all pads are loaded through the drain diodes to VDDE/VDDEH. This presents a heavy load that pulls the pad down to a diode above VSS. Current injected by external devices connected to the pads must meet the current injection specification. There is no limit to how long after VDD powers up before VDDE/VDDEH must power up. The rise times on the power supplies are to be no faster than 25 V/millisecond. 4.6.
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Electrical Characteristics Table 14. DC Electrical Specifications (continued) Spec Characteristic Symbol Min Max Unit VDDSYN 3.0 3.61,4 V VDDE + 0.
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Electrical Characteristics Table 14. DC Electrical Specifications (continued) Spec 27 28 29 2 3 4 5 6 7 8 9 Operating Current VDDE/VDDEH17 Supplies VDDE2 VDDEH1 VDDEH3 VDDEH4 VDDEH5 VDDEH6 VDDEH7 Fast I/O Weak Pull Up/Down Current18 3.0 V–3.6 V Medium I/O Weak Pull Up/Down Current19 3.0 V–3.6 V 4.5 V–5.
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Electrical Characteristics 10 IOH_F = {16,32,47,77} mA and IOL_F = {24,48,71,115} mA for {00,01,10,11} drive mode with VDDE = 3.0 V. This spec is for characterization only. 11 IOH_S = {11.6} mA and IOL_S = {17.7} mA for {medium} I/O with VDDE = 4.5 V; IOH_S = {5.4} mA and IOL_S = {8.1} mA for {medium} I/O with VDDE = 3.0 V. These specs are for characterization only. 12 Applies to D_CLKOUT, external bus pins, and Nexus pins. 13 V o STBY current specified at 1.0 V at a junction temperature of 85 C.
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Electrical Characteristics Table 15. VDDE/VDDEH I/O Pad Average DC Current1 (continued) Spec Pad Type Symbol Frequency (MHz) Load2 (pF) Voltage (V) Drive/Slew Rate Select Current (mA) 9 Fast w/ Slew Control IDRV_FSR 66 50 3.6 11 12.7 50 50 3.6 10 6.7 11 33.33 50 3.6 01 4.2 12 20 50 3.6 00 2.6 13 20 200 3.6 00 9.1 10 1 2 These are average IDDE numbers for worst case PVT from simulation. Currents apply to output pins only. All loads are lumped.
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Electrical Characteristics 4.7.2 LVDS Pad Specifications LVDS pads are implemented to support the MSC (Microsecond Channel) protocol, which is an enhanced feature of the DSPI module. Table 16. DSPI LVDS pad specification # Characteristic Min. Value Typ. Value Max. Value Unit — 50 — MHz SRC=0b00 or 0b11 150 — 400 mV SRC=0b01 90 — 320 SRC=0b10 160 — 480 VOS — 1.06 1.2 1.
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Electrical Characteristics Table 17. FMPLL Electrical Specifications1 (continued) (VDDSYN = 3.0 V to 3.6 V, VSS = VSSSYN = 0 V, TA = TL to TH) Spec Characteristic Symbol Min Max Unit 5 Duty Cycle of Reference 7 tDC 40 60 % 6 Frequency un-LOCK Range fUL –4.0 4.0 % fsys 7 Frequency LOCK Range fLCK –2.0 2.0 % fsys CJitter –5 5 %fclkout Cmod 0 4 %fsys Cmod_err –0.25 0.25 %fsys fVCO 192 600 MHz fmod 0.
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Electrical Characteristics Table 18. Oscillator Electrical Specifications1 (VDDSYN = 3.0 V to 3.6 V, VSS = VSSSYN = 0 V, TA = TL to TH) Spec Characteristic Symbol Min Max Unit 1 Crystal Mode Differential Amplitude2 (Min differential voltage between EXTAL and XTAL) Vcrystal_diff_amp | Vextal – Vxtal | > 0.4 V — V 2 Crystal Mode: Internal Differential Amplifier Noise Rejection Vcrystal_diff_amp_nr — | Vextal – Vxtal | < 0.
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Electrical Characteristics Table 19.
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Electrical Characteristics 4.9.1 ADC Internal Resource Measurements Table 20. Power Management Control (PMC) Specification Spec Characteristic Symbol Min Typical Max Unit PMC Normal Mode 1 Bandgap 0.62 V ADC0 channel 145 VADC145 — 0.62 — V 2 Bandgap 1.2 V ADC0 channel 146 VADC146 — 1.22 — V 3 Vreg1p2 Feedback ADC0 channel 147 VADC147 — VDD / 2.045 — V 4 LVD 1.2 V ADC0 channel 180 VADC180 — VDD / 1.774 — V 5 Vreg3p3 Feedback ADC0 channel 181 VADC181 — Vreg3p3 / 5.
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Electrical Characteristics Table 22. ADC Band Gap Reference / LVI Electrical Specifications Spec Characteristic Symbol Min Typ Max Unit 1 4.75 LVD (from VDDA) ADC1 channel 196 VADC196 — 4.75 — V 2 ADC Bandgap ADC0 channel 45 ADC1 channel 45 VADC45 1.171 1.220 1.269 V Table 23. Temperature Sensor Electrical Specifications Spec 1 Characteristic 1 Slope –40 C to 100 C ±1.0 C 100 C to 150 C ±1.
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Electrical Characteristics Table 25.
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Electrical Characteristics 4.11 AC Specifications 4.11.1 Clocking The Figure 16 shows the operating frequency domains of various blocks on MPC5674F.
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Electrical Characteristics 2 Up to the maximum frequency rating of the device (refer to Table 1). The fsys speed is the nominal maximum frequency. 270 Mhz parts allow for 264 Mhz system clock + 2% FM. 3 See the MPC5674F Reference Manual for full description as not all bit combinations are valid. 4 EBI/Calibration bus is not available in all packages. 5 The EBI/Calibration Bus operating frequency, febi_cal , depends on clock divider settings of block’s max allowed frequency of operation.
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Electrical Characteristics 4.11.2 Pad AC Specifications Table 30. Pad AC Specifications (VDDEH = 5.0 V, VDDE = 3.3 V)1 Spec Pad SRC/DSC Out Delay2,4 L  H/H  L (ns) Rise/Fall3,4 (ns) Load Drive (pF) 1 Medium5 00 152/165 70/74 50 205/220 96/96 200 28/34 12/15 50 52/59 28/31 200 12/12 5.3/5.9 50 32/32 22/22 200 2 3 01 4 5 11 6 7 Fast5 00 8 10 01 20 2.5 9 10 30 10 11 50 11 Fast with Slew Rate 00 12 13 01 14 15 10 16 17 11 18 1 2 3 4 5 1.
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Electrical Characteristics Table 31. Derated Pad AC Specifications (VDDEH = 3.3 V)1 Spec Pad SRC/DSC Out Delay2,3 L  H/H  L (ns) Rise/Fall4,3 (ns) Load Drive (pF) 1 Medium5 00 200/210 86/86 50 270/285 120/120 200 37/45 15.5/19 50 69/82 38/43 200 18/17 7.6/8.5 50 46/49 30/34 200 2 3 01 4 5 11 6 1 2 3 4 5 These are worst case values that are estimated from simulation and not tested. The values in the table are simulated at VDD = 1.08 V to 1.32 V, VDDE = 3.0 V to 3.
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Electrical Characteristics D_CLKOUT VDDE / 2 A B I/O Outputs VDDEn / 2 VDDEHn / 2 A – Maximum Output Delay Time B – Minimum Output Hold Time Figure 18. Generic Output Delay/Hold Timing D_CLKOUT VDDE / 2 B A I/O Inputs VDDEn / 2 VDDEHn / 2 A – Minimum Input Setup Time B – Minimum Input Hold Time Figure 19. Generic Input Setup/Hold Timing 4.12.2 Reset and Configuration Pin Timing Table 32.
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Electrical Characteristics 2 See Notes on tcyc on Figure 16 and Table 27 in Section 4.11.1, “Clocking.” 2 RESET 1 RSTOUT 3 PLLCFG BOOTCFG WKPCFG 4 Figure 20. Reset and Configuration Pin Timing 4.12.3 IEEE 1149.1 Interface Timing Table 33.
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Electrical Characteristics 1 JTAG timing specified at VDD = 1.08 V to 1.32 V, VDDE = 3.0 V to 3.6 V, VDD33 and VDDSYN = 3.0 V to 3.6 V, TA = TL to TH, and CL = 30 pF with DSC = 0b10, SRC = 0b00. These specifications apply to JTAG boundary scan only. See Table 34 for functional specifications. TCK 2 2 3 1 3 Figure 21. JTAG Test Clock Input Timing TCK 4 5 TMS, TDI 6 7 8 TDO Figure 22. JTAG Test Access Port Timing MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics TCK 10 JCOMP 9 Figure 23. JTAG JCOMP Timing TCK 11 13 Output Signals 12 Output Signals 14 15 Input Signals Figure 24. JTAG Boundary Scan Timing MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 4.12.4 Nexus Timing Table 34. Nexus Debug Port Timing1 Spec Characteristic Symbol Min Max Unit 1 MCKO Cycle Time tMCYC 22 8 tCYC3 2 MCKO Duty Cycle tMDC 40 60 % 3 MCKO Low to MDO Data Valid4 tMDOV –0.1 0.2 tMCYC 4 MCKO Low to MSEO Data Valid4 tMSEOV –0.1 0.2 tMCYC 5 4 MCKO Low to EVTO Data Valid tEVTOV –0.1 0.2 tMCYC 6 EVTI Pulse Width tEVTIPW 4.
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Electrical Characteristics 1 2 MCKO 3 4 5 MDO MSEO EVTO Output Data Valid 7 EVTI 6 Figure 25. Nexus Timings MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 8 9 TCK 10 11 TMS, TDI 12 TDO Figure 26. Nexus TCK, TDI, TMS, TDO Timing MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 4.12.5 External Bus Interface (EBI) Timing Table 35. Bus Operation Timing 1 66 MHz (Ext. Bus Freq)2 3 Spec Characteristic Symbol Unit Notes — ns Signals are measured at 50% VDDE. Min Max tC 15.2 1 D_CLKOUT Period 2 D_CLKOUT Duty Cycle tCDC 45% 55% tC 3 D_CLKOUT Rise Time tCRT — —4 ns 4 4 D_CLKOUT Fall Time tCFT — — ns 5 D_CLKOUT Posedge to Output Signal Invalid or High Z (Hold Time) tCOH 1.0/1.
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Electrical Characteristics Table 35. Bus Operation Timing 1 (continued) 66 MHz (Ext. Bus Freq)2 3 Spec 7 Characteristic Symbol Input Signal Valid to D_CLKOUT Posedge (Setup Time) Unit Min Max tCIS 5.0/4.5 — ns tCIH 1.0 — ns Input setup time selectable via SIU_ECCR[EBTS] bit: EBTS = 0; 5.0ns EBTS = 1; 4.
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Electrical Characteristics VDDE / 2 D_CLKOUT 6 5 5 Output Bus VDDE / 2 6 5 5 Output Signal VDDE / 2 6 Output Signal VDDE / 2 Figure 28. Synchronous Output Timing MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics D_CLKOUT VDDE / 2 7 8 Input Bus VDDE / 2 7 8 Input Signal VDDE / 2 Figure 29. Synchronous Input Timing ipg_clk D_CLKOUT D_ALE D_TS D_ADD/D_DAT DATA ADDR 9 10 Figure 30. ALE Signal Timing MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 4.12.6 External Interrupt Timing (IRQ Pin) Table 36. External Interrupt Timing1 Spec Characteristic Symbol Min Max Unit 1 IRQ Pulse Width Low tIPWL 3 — tcyc2 2 IRQ Pulse Width High tIPWH 3 — tcyc2 3 IRQ Edge to Edge Time3 tICYC 6 — tcyc2 1 IRQ timing specified at VDD = 1.08 V to 1.32 V, VDDEH = 3.0 V to 5.5 V, VDD33 and VDDSYN = 3.0 V to 3.6 V, TA = TL to TH. 2 See Notes on tcyc on Figure 16 and Table 27 in Section 4.11.1, Clocking.
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Electrical Characteristics eTPU Input and TCRCLK 1 2 eTPU Output Figure 32. eTPU Timing 4.12.8 eMIOS Timing Table 38. eMIOS Timing1 Spec Characteristic Symbol Min Max Unit 1 eMIOS Input Pulse Width tMIPW 4 — tcyc2 2 eMIOS Output Pulse Width tMOPW 13 — tcyc2 1 eMIOS timing specified at VDD = 1.08 V to 1.32 V, VDDEH = 3.0 V to 5.5 V, VDD33 and VDDSYN = 3.0 V to 3.6 V, TA = TL to TH, and CL = 50 pF with SRC = 0b00. 2 See Notes on tcyc on Figure 16 and Table 27 in Section 4.11.
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Electrical Characteristics eMIOS Input 1 2 eMIOS Output Figure 33. eMIOS Timing 4.12.9 DSPI Timing Table 39. DSPI Timing1 2 Peripheral Bus Freq: 132 MHz Spec Characteristic Symbol Unit Min Max 1 DSPI Cycle Time3, 4 Master (MTFE = 0) Slave (MTFE = 0) Master (MTFE = 1) Slave (MTFE = 1) tSCK tSYS * 2 tSYS*32768*7 ns 2 PCS to SCK Delay5 tCSC 12 — ns 3 After SCK Delay6 Master mode Slave mode tASC tSYS * 2 tSYS *3 – constraints 7 — 4 SCK Duty Cycle tSDC 0.33 * tSCK 0.
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Electrical Characteristics Table 39.
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Electrical Characteristics 2 3 PCSx 1 4 SCK Output (CPOL = 0) 4 SCK Output (CPOL = 1) 10 9 SIN First Data Last Data Data 12 SOUT First Data 11 Data Last Data Figure 34. DSPI Classic SPI Timing — Master, CPHA = 0 PCSx SCK Output (CPOL=0) 10 SCK Output (CPOL=1) 9 SIN Data First Data 12 SOUT First Data Last Data 11 Data Last Data Figure 35. DSPI Classic SPI Timing — Master, CPHA = 1 MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 3 2 SS 1 4 SCK Input (CPOL = 0) 4 SCK Input (CPOL = 1) 5 First Data SOUT 9 6 Data Last Data Data Last Data 10 First Data SIN 11 12 Figure 36. DSPI Classic SPI Timing — Slave, CPHA = 0 SS SCK Input (CPOL = 0) SCK Input (CPOL = 1) 11 5 12 SOUT First Data 9 SIN Data Last Data Data Last Data 6 10 First Data Figure 37. DSPI Classic SPI Timing — Slave, CPHA = 1 MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 3 PCSx 4 1 2 SCK Output (CPOL = 0) 4 SCK Output (CPOL = 1) 9 SIN 10 First Data Last Data Data 12 SOUT 11 First Data Last Data Data Figure 38. DSPI Modified Transfer Format Timing — Master, CPHA = 0 PCSx SCK Output (CPOL = 0) SCK Output (CPOL = 1) 10 9 SIN First Data Data 12 SOUT First Data Data Last Data 11 Last Data Figure 39. DSPI Modified Transfer Format Timing — Master, CPHA = 1 MPC5674F Microcontroller Data Sheet, Rev.
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Electrical Characteristics 3 2 SS 1 SCK Input (CPOL = 0) 4 4 SCK Input (CPOL = 1) 12 11 5 First Data SOUT Data Last Data 10 9 Data First Data SIN 6 Last Data Figure 40. DSPI Modified Transfer Format Timing — Slave, CPHA = 0 SS SCK Input (CPOL = 0) SCK Input (CPOL = 1) 11 5 6 12 First Data SOUT 9 Last Data Data Last Data 10 First Data SIN Data Figure 41. DSPI Modified Transfer Format Timing — Slave, CPHA = 1 7 8 PCSS PCSx Figure 42.
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Package Information 5 Package Information The latest package outline drawings are available on the product summary pages on our website: http://www.freescale.com/powerarchitecture. The following table lists the package case number. Use these numbers in the webpage’s keyword search engine to find the latest package outline drawings. Table 41.
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Package Information 5.1 324-Pin Package The package drawings of the 324-pin TEPBGA package are shown in Figure 43 and Figure 44. Figure 43. 324 TEPBGA Package (1 of 2) MPC5674F Microcontroller Data Sheet, Rev.
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Package Information Figure 44. 324 TEPBGA Package (2 of 2) MPC5674F Microcontroller Data Sheet, Rev.
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Package Information 5.2 416-Pin Package The package drawings of the 416-pin TEPBGA package are shown in Figure 45 and Figure 46. Figure 45. 416 TEPBGA Package (1 of 2) MPC5674F Microcontroller Data Sheet, Rev.
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Package Information Figure 46. 416 TEPBGA Package (2 of 2) MPC5674F Microcontroller Data Sheet, Rev.
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Package Information 5.3 516-Pin Package The package drawings of the 516-pin TEPBGA package are shown in Figure 47 and Figure 48. Figure 47. 516 TEPBGA Package (1 of 2) MPC5674F Microcontroller Data Sheet, Rev.
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Package Information Figure 48. 516 TEPBGA Package (2 of 2) MPC5674F Microcontroller Data Sheet, Rev.
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Product Documentation 6 Product Documentation This data sheet is labeled as a particular type: Product Preview, Advance Information, or Technical Data. Definitions of these types are available at: http://www.freescale.com. The following documents are required for a complete description of the device and are necessary to design properly with the parts: • MPC5674F Microprocessor Reference Manual (document number MPC5674FRM). MPC5674F Microcontroller Data Sheet, Rev.
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Signal Properties and Muxing Appendix A Signal Properties and Muxing The following table shows the signals properties for each pin on the MPC5674F. For each port pin that has an associated SIU_PCRn register to control its pin properties, the supported functions column lists the functions associated with the programming of the SIU_PCRn[PA] bit in the order: Primary function (P), Function 2 (F2), Function 3 (F3), and GPIO (G). See Figure 49. U Table 2.
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Freescale Semiconductor Voltage6 324 416 516 Function Summary Pad Type5 Function 4 Direction Signal Name 2 P/A/G3 GPIO/PCR1 Table 42.
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124 ETPUA10_ETPUA22_ GPIO124 516 123 ETPUA9_ETPUA21_ GPIO123 416 122 ETPUA8_ETPUA20_ GPIO122 324 MPC5674F Microcontroller Data Sheet, Rev. 9 121 ETPUA7_ETPUA19_ GPIO121 Voltage6 120 ETPUA6_ETPUA18_ GPIO120 Function Summary Pad Type5 119 ETPUA5_ETPUA17_ GPIO119 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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130 ETPUA16_PCSD1_ GPIO130 516 129 ETPUA15_PCSB5_ GPIO129 416 128 ETPUA14_PCSB4_ GPIO128 324 MPC5674F Microcontroller Data Sheet, Rev. 9 127 ETPUA13_PCSB3_ GPIO127 Voltage6 126 ETPUA12_PCSB1_ GPIO126 Function Summary Pad Type5 125 ETPUA11_ETPUA23_ GPIO125 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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136 ETPUA22_IRQ10_ GPIO136 516 135 ETPUA21_IRQ9_ GPIO135 416 134 ETPUA20_IRQ8_ GPIO134 324 MPC5674F Microcontroller Data Sheet, Rev. 9 133 ETPUA19_PCSD4_ GPIO133 Voltage6 132 ETPUA18_PCSD3_ GPIO132 Function Summary Pad Type5 131 ETPUA17_PCSD2_ GPIO131 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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142 ETPUA28_PCSC1_ GPIO142 516 141 ETPUA27_IRQ15_ GPIO141 416 140 ETPUA26_IRQ14_ GPIO140 324 MPC5674F Microcontroller Data Sheet, Rev. 9 139 ETPUA25_IRQ13_ GPIO139 Voltage6 138 ETPUA24_IRQ12_ GPIO138 Function Summary Pad Type5 137 ETPUA23_IRQ11_ GPIO137 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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324 416 516 MPC5674F Microcontroller Data Sheet, Rev. 9 145 ETPUA31_PCSC4_ GPIO145 Voltage6 144 ETPUA30_PCSC3_ GPIO144 Function Summary Pad Type5 143 ETPUA29_PCSC2_ GPIO143 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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154 ETPUB7_ETPUB23_ GPIO154 516 153 ETPUB6_ETPUB22_ GPIO153 416 152 ETPUB5_ETPUB21_ GPIO152 324 MPC5674F Microcontroller Data Sheet, Rev. 9 151 ETPUB4_ETPUB20_ GPIO151 Voltage6 150 ETPUB3_ETPUB19_ GPIO150 Function Summary Pad Type5 149 ETPUB2_ETPUB18_ GPIO149 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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160 ETPUB13_ETPUB29_ GPIO160 516 159 ETPUB12_ETPUB28_ GPIO159 416 158 ETPUB11_ETPUB27_ GPIO158 324 MPC5674F Microcontroller Data Sheet, Rev. 9 157 ETPUB10_ETPUB26_ GPIO157 Voltage6 156 ETPUB9_ETPUB25_ GPIO156 Function Summary Pad Type5 155 ETPUB8_ETPUB24_ GPIO155 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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166 ETPUB19_PCSA4_ GPIO166 516 165 ETPUB18_PCSA3_ GPIO165 416 164 ETPUB17_PCSA2_ GPIO164 324 MPC5674F Microcontroller Data Sheet, Rev. 9 163 ETPUB16_PCSA1_ GPIO163 Voltage6 162 ETPUB15_ETPUB31_ GPIO162 Function Summary Pad Type5 161 ETPUB14_ETPUB30_ GPIO161 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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172 ETPUB25_ GPIO172 516 171 ETPUB24_ GPIO171 416 170 ETPUB23_ GPIO170 324 MPC5674F Microcontroller Data Sheet, Rev. 9 169 ETPUB22_ GPIO169 Voltage6 168 ETPUB21_ GPIO168 Function Summary Pad Type5 167 ETPUB20_ GPIO167 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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178 ETPUB31_ GPIO178 516 177 ETPUB30_ GPIO177 416 176 ETPUB29_ GPIO176 324 MPC5674F Microcontroller Data Sheet, Rev. 9 175 ETPUB28_ GPIO175 Voltage6 174 ETPUB27_ GPIO174 Function Summary Pad Type5 173 ETPUB26_ GPIO173 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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Voltage6 324 416 516 Function Summary Pad Type5 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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451 ETPUC10__IRQ1_ GPIO4519 516 450 ETPUC9_IRQ0_ GPIO4509 416 449 ETPUC8_ GPIO4499 324 MPC5674F Microcontroller Data Sheet, Rev. 9 448 ETPUC7_ GPIO4489 Voltage6 447 ETPUC6_ GPIO4479 Function Summary Pad Type5 446 ETPUC5_ GPIO4469 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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457 ETPUC16_FR_A_TX_ GPIO4579 516 456 ETPUC15__ GPIO4569 416 455 ETPUC14_4_IRQ5_ GPIO4559 324 MPC5674F Microcontroller Data Sheet, Rev. 9 454 ETPUC13_3_IRQ4_ GPIO4549 Voltage6 453 ETPUC12_IRQ3_ GPIO4539 Function Summary Pad Type5 452 ETPUC11_IRQ2_ GPIO4529 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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463 ETPUC22_RXDB_ GPIO4639 516 462 ETPUC21_TXDB_ GPIO4629 416 461 ETPUC20_RXDA _ GPIO4619 324 MPC5674F Microcontroller Data Sheet, Rev. 9 460 ETPUC19_TXDA_ GPIO4609 Voltage6 459 ETPUC18_FR_A_TX_EN_ GPIO4599 Function Summary Pad Type5 458 ETPUC17_FR_A_RX_ GPIO4589 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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469 ETPUC28_PCSD0_ GPIO4699 516 468 ETPUC27_PCSD1_ GPIO4689 416 467 ETPUC26_PCSD2_ GPIO4679 324 466 ETPUC25_PCSD3_ GPIO4669 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 465 ETPUC24_PCSD4_ GPIO4659 Function Summary Pad Type5 464 ETPUC23_PCSD5_ GPIO4649 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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324 416 516 MPC5674F Microcontroller Data Sheet, Rev. 9 472 ETPUC31_SIND_ GPIO4729 Voltage6 471 ETPUC30_SOUTD_ GPIO4719 Function Summary Pad Type5 470 ETPUC29_SCKD_ GPIO4709 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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187 EMIOS8_ETPUA8_ GPIO187 516 186 EMIOS7_ETPUA7_ GPIO186 416 185 EMIOS6_ETPUA6_ GPIO185 324 MPC5674F Microcontroller Data Sheet, Rev. 9 184 EMIOS5_ETPUA5_ GPIO184 Voltage6 183 EMIOS4_ETPUA4_ GPIO183 Function Summary Pad Type5 182 EMIOS3_ETPUA3_ GPIO182 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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193 EMIOS14_IRQ0_ GPIO193 516 192 EMIOS13_SOUTD_ GPIO192 416 191 EMIOS12_SOUTC_ GPIO191 324 MPC5674F Microcontroller Data Sheet, Rev. 9 190 EMIOS11_SIND_ GPIO190 Voltage6 189 EMIOS10_SCKD_ GPIO189 Function Summary Pad Type5 188 EMIOS9_ETPUA9_ GPIO188 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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199 EMIOS20_ETPUB4_ GPIO199 516 198 EMIOS19_ETPUB3_ GPIO198 416 197 EMIOS18_ETPUB2_ GPIO197 324 MPC5674F Microcontroller Data Sheet, Rev. 9 196 EMIOS17_ETPUB1_ GPIO196 Voltage6 195 EMIOS16_ETPUB0_ GPIO195 Function Summary Pad Type5 194 EMIOS15_IRQ1_ GPIO194 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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432 EMIOS26_PCSB2_ GPIO432 516 204 EMIOS25_PCSB1_ GPIO204 416 203 EMIOS24_PCSB0_ GPIO203 324 MPC5674F Microcontroller Data Sheet, Rev. 9 202 EMIOS23_ETPUB7_ GPIO202 Voltage6 201 EMIOS22_ETPUB6_ GPIO201 Function Summary Pad Type5 200 EMIOS21_ETPUB5_ GPIO200 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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516 437 EMIOS31_PCSC5_ GPIO437 416 436 EMIOS30_PCSC2_ GPIO436 324 MPC5674F Microcontroller Data Sheet, Rev. 9 435 EMIOS29_PCSC1_ GPIO435 Voltage6 434 EMIOS28_PCSC0_ GPIO434 Function Summary Pad Type5 433 EMIOS27_PCSB3_ GPIO433 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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Voltage6 324 416 516 — ANA3 P ANA310 eQADC A analog input I AE/updown VDDA_A1 ANA3 ANA3 B6 D6 D6 — ANA4 P ANA410 eQADC A analog input I AE/updown VDDA_A1 ANA4 ANA4 A6 A5 A5 — ANA5 P ANA510 eQADC A analog input I AE/updown VDDA_A1 ANA5 ANA5 A7 B6 B6 — ANA6 P ANA610 eQADC A analog input I AE/updown VDDA_A1 ANA6 ANA6 B7 C6 C6 — ANA7 P ANA710 eQADC A analog input I AE/updown VDDA_A1 ANA7 ANA7 B8 D7 C7 — ANA8 P ANA8 eQADC A analog input I
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Voltage6 324 416 516 — AN27 P AN27 eQADC A and B shared analog input I AE VDDA_A0 AN27 AN27 — B13 B13 — AN28 P AN28 eQADC A and B shared analog input I AE VDDA_A0 AN28 AN28 — A13 A13 — AN29 P AN29 eQADC A and B shared analog input I AE VDDA_A0 AN29 AN29 — B14 A14 — AN30 P AN30 eQADC A and B shared analog input I AE VDDA_B1 AN30 AN30 — C14 B14 — AN31 P AN31 eQADC A and B shared analog input I AE VDDA_B1 AN31 AN31 — D14 C14 — AN32 P AN32
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Voltage6 324 416 516 — ANB9 P ANB9 eQADC B analog input I AE VDDA_B0 ANB9 ANB9 C14 D20 A21 — ANB10 P ANB10 eQADC B analog input I AE VDDA_B0 ANB10 ANB10 C13 B21 B21 — ANB11 P ANB11 eQADC B analog input I AE VDDA_B0 ANB11 ANB11 C15 A21 C21 — ANB12 P ANB12 eQADC B analog input I AE VDDA_B0 ANB12 ANB12 C16 C21 A22 — ANB13 P ANB13 eQADC B analog input I AE VDDA_B0 ANB13 ANB13 D14 D21 B22 — ANB14 P ANB14 eQADC B analog input I AE VDDA_B0
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Pad Type5 Voltage6 324 416 516 — VSSA_B0 P VSSA_B Ground I VSSE VSSA_B0 VSSA_B0 VSSA_B0 B14 B17 B17 — REFBYPCB1 P REFBYPCB1 ADC B Reference bypass capacitor I AE VDDA_B0 REFBYPCB1 REFBYPCB1 A14 A17 A17 FS VDDE2 —/Up —/Up (–/– for Rev.1 of (–/– for Rev.1 of the device) the device) Y5 AD4 AD4 FS VDDE2 —/Up —/Up (–/– for Rev.1 of (–/– for Rev.1 of the device) the device) AA4 AE3 AE3 FS VDDE2 —/Up —/Up (–/– for Rev.1 of (–/– for Rev.
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Voltage6 O FS VDDE2 MH VDDEH4 —/Up MH VDDEH4 MH FlexRay B transfer enable A1 — — — A2 — — — G GPIO253 GPIO I/O 516 FR_B_TX_EN 416 P Package Location State during State RESET7 after RESET8 324 Function Summary Pad Type5 253 FR_B_TX_EN_ GPIO253 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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324 416 516 MPC5674F Microcontroller Data Sheet, Rev. 9 247 CNRXD_ GPIO247 Voltage6 246 CNTXD_ GPIO246 Function Summary Pad Type5 CNRXC_PCSD4_ GPIO88 Function4 Direction 88 Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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324 416 516 MPC5674F Microcontroller Data Sheet, Rev. 9 245 RXDC_ GPIO245 Voltage6 244 TXDC_ETRIG0_ GPIO244 Function Summary Pad Type5 RXDB_PCSD5_ GPIO92 Function4 Direction 92 Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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101 PCSA5_ETRIG1_ GPIO101 516 100 PCSA4_ GPIO100 416 PCSA3_ GPIO99 324 99 PCSA2_ GPIO98 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 98 PCSA1_ GPIO97 Function Summary Pad Type5 97 PCSA0_PCSD2_ GPIO96 Function4 Direction 96 Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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107 PCSB2_SOUTC_ GPIO107 516 106 PCSB1_PCSD0_ GPIO106 416 105 PCSB0_PCSD2_ GPIO105 324 MPC5674F Microcontroller Data Sheet, Rev. 9 104 SOUTB_ GPIO104 Voltage6 103 SINB_ GPIO103 Function Summary Pad Type5 102 SCKB_ GPIO102 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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237 SOUTC_SOUT_C_LVDSP_ GPIO237 516 236 SINC_SCK_C_LVDSM_ GPIO236 416 235 SCKC_SCK_C_LVDSP_ GPIO235 324 MPC5674F Microcontroller Data Sheet, Rev. 9 110 PCSB5_PCSC0_ GPIO110 Voltage6 109 PCSB4_SCKC_ GPIO109 Function Summary Pad Type5 108 PCSB3_SINC_ GPIO108 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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243 PCSC5_GPIO243 516 242 PCSC4_GPIO242 416 241 PCSC3_GPIO241 324 240 PCSC2_GPIO240 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 239 PCSC1_ GPIO239 Function Summary Pad Type5 238 PCSC0_SOUT_C_LVDSM_ GPIO238 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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Voltage6 324 416 516 Function Summary Pad Type5 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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267 D_ADD20_D_ADD_DAT20_ GPIO267 516 266 D_ADD19_D_ADD_DAT19_ GPIO266 416 265 D_ADD18_D_ADD_DAT18_ GPIO265 324 MPC5674F Microcontroller Data Sheet, Rev. 9 264 D_ADD17_D_ADD_DAT17_ GPIO264 Voltage6 263 D_ADD16_D_ADD_DAT16_ GPIO263 Function Summary Pad Type5 262 D_ADD15_ GPIO262 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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516 272 D_ADD25_D_ADD_DAT25_ GPIO272 416 271 D_ADD24_D_ADD_DAT24_ GPIO271 324 270 D_ADD23_D_ADD_DAT23_ GPIO270 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 269 D_ADD22_D_ADD_DAT22_ GPIO269 Function Summary Pad Type5 268 D_ADD21_D_ADD_DAT21_ GPIO268 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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516 277 D_ADD30_D_ADD_DAT30_ GPIO277 416 276 D_ADD29_D_ADD_DAT29_ GPIO276 324 275 D_ADD28_D_ADD_DAT28_ GPIO275 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 274 D_ADD27_D_ADD_DAT27_ GPIO274 Function Summary Pad Type5 273 D_ADD26_D_ADD_DAT26_ GPIO273 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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516 282 D_ADD_DAT4_ GPIO282 416 281 D_ADD_DAT3_ GPIO281 324 280 D_ADD_DAT2_ GPIO280 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 279 D_ADD_DAT1_ GPIO279 Function Summary Pad Type5 278 D_ADD_DAT0_ GPIO278 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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516 287 D_ADD_DAT9_ GPIO287 416 286 D_ADD_DAT8_ GPIO286 324 285 D_ADD_DAT7_ GPIO285 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 284 D_ADD_DAT6_ GPIO284 Function Summary Pad Type5 283 D_ADD_DAT5_ GPIO283 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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516 292 D_ADD_DAT14_GPIO292 416 291 D_ADD_DAT13 _GPIO291 324 290 D_ADD_DAT12_ GPIO290 Voltage6 MPC5674F Microcontroller Data Sheet, Rev. 9 289 D_ADD_DAT11_ GPIO289 Function Summary Pad Type5 288 D_ADD_DAT10_ GPIO288 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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298 D_TS_GPIO298 516 297 D_OE_GPIO297 416 296 D_WE1_GPIO296 324 MPC5674F Microcontroller Data Sheet, Rev. 9 295 D_WE0_GPIO295 Voltage6 294 D_RD_WR_GPIO294 Function Summary Pad Type5 293 D_ADD_DAT15_GPIO293 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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304 D_WE3_GPIO304 516 303 D_WE2_GPIO303 416 302 D_BDIP_GPIO302 324 MPC5674F Microcontroller Data Sheet, Rev. 9 301 D_CS1_GPIO301 Voltage6 300 D_TA_GPIO300 Function Summary Pad Type5 299 D_ALE_GPIO299 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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324 416 516 MPC5674F Microcontroller Data Sheet, Rev. 9 307 D_ADD11_GPIO307 Voltage6 306 D_ADD10_GPIO306 Function Summary Pad Type5 305 D_ADD9_GPIO305 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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324 416 516 MPC5674F Microcontroller Data Sheet, Rev. 9 209 PLLCFG1_IRQ5_ GPIO209 Voltage6 208 PLLCFG0_IRQ4_ GPIO208 Function Summary Pad Type5 213 WKPCFG_NMI_ GPIO213 Function4 Direction Signal Name2 P/A/G3 GPIO/PCR1 Freescale Semiconductor Table 42.
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Pad Type5 Voltage6 324 416 516 MPC5674F Microcontroller Data Sheet, Rev.
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324 416 516 82 Voltage6 MPC5674F Microcontroller Data Sheet, Rev.
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Pad Type5 Voltage6 324 416 516 O F VDDE2 O/Low —/Down V1 AA1 Y5 F VDDE2 O/Low —/Down W2 AA2 AA1 F VDDE2 O/Low —/Down V3 AA3 AA2 F VDDE2 O/Low —/Down U4 Y4 AA3 O F VDDE2 O/Low MSEO/HI P2 U2 U6 Nexus message start/end out O F VDDE2 O/Low MSEO/HI N3 T3 U5 RDY Nexus ready output O F VDDE2 O/Low RDY/HI M4 R4 U3 TCK JTAG test clock input I F VDDE2 TCK/Down TCK/Down Y1 AB2 AB2 Function4 Function Summary –13 MDO1215 Nexus message data out A
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Voltage6 324 416 516 — VSSSYN — VSSSYN Clock synthesizer ground input I VSSE VDDSYN VSSSYN VSSSYN U22 AA26 AA26 — VSTBY — VSTBY SRAM standby power input I VHV VDDEH1 VSTBY VSTBY K4 M4 M4 — REGSEL — REGSEL Selects regulator mode (Linear/Switch mode) I AE VDDREG REGSEL REGSEL V20 W23 W23 — REGCTL — REGCTL Regulator controller output to base/gate of power transistor O AE VDDREG REGCTL REGCTL T22 Y26 Y26 — VSSFL — VSSFL Tie to VSS I VSS VDDREG VSSF
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Freescale Semiconductor 12 Nexus reset is different than system reset; MDO 1-11 are enabled when trace (RPM or FPM) is enabled, and MDO 12-15 when FPM trace is enabled. MSEO and MCKO are also dependent on trace (RPM or FPM) being enabled. Nexus pins don’t have a “primary” function as they are not configured by the SIU. The pins are selected by asserting JCOMP and configuring the NPC. SIU values have no effect on the function of these pins once enabled.
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Freescale Semiconductor Table 43 lists the pin locations of the power and ground signals on the 324 TEPBGA package. Table 43. 324-pin Power Supply Locations VDD A2 B3 C4 D5 K3 V19 W5 W9 W20 Y4 N1 N10 N9 P10 P9 T4 W6 V2 Y21 AA3 AA22 AB2 VDD33 W21 V4 VDDE2 AB4 M9 MPC5674F Microcontroller Data Sheet, Rev.
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Freescale Semiconductor Table 44 lists the pin locations of the power and ground signals on the 416 TEPBGA package. Table 44. 416-pin Power Supply Locations VDD A2 B3 C4 AA4 AA23 P10 P11 D5 N4 AB4 AB23 AC3 R10 R11 T1 T10 T11 AC12 AC24 AD2 AD25 AE1 AE26 U11 U12 W4 AC1 VDD33 M1 VDDE2 N10 MPC5674F Microcontroller Data Sheet, Rev.
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Freescale Semiconductor Table 45 lists the pin locations of the power and ground signals on the 516 TEPBGA package. Table 45. 516-pin Power Supply Locations VDD A2 B3 C4 D5 E6 N4 AB4 AB23 VDD33 M1 AC3 AC12 AC24 AD2 AD25 AE1 AE26 VDDE10 P6 L21 AA4 AA11 AA14 AA23 P10 P11 F16 F17 F19 F21 N21 P21 AA22 T12 U10 U11 U12 W4 AC1 AC5 AB6 AB7 AB18 AB19 VDDE2 N10 R10 R11 T1 T10 T11 MPC5674F Microcontroller Data Sheet, Rev.
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Signal Properties and Muxing MPC5674F Microcontroller Data Sheet, Rev.
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Revision History Appendix B Revision History Table 46 describes the changes made to this document between revisions. Table 46. Revision History Revision (Date) Description of changes 2 Initial release, NDA Required. (Sept 2008) 3 (Nov 2009) Changes between Rev.2 and Rev. 3: Added 516-pin package figures. Signals table: Updates throughout entire table. Updated Section 4.6, “Power Up/Down Sequencing” Updated features list. Updated flash PFCPR1 settings table.
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Revision History Table 46. Revision History (continued) Revision (Date) 3 (cont.) Description of changes eQADC Conversion Specifications table: Spec #7, 8: both +/-3, no dependency on frequency Spec #15, 16: added "(with calibration)" to both Flash Program and Erase Specifications table: Added footnote 4 to spec #2. Updated all initial max value times. Updated entire AC Specifications: Clocking section.
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Revision History Table 46. Revision History (continued) Revision (Date) Description of changes 4 (cont) “Temperature Sensor Electrical Specifications” table: Changed spec #2 to have one temperature range (-40 - 150 C) and changed spec value from ±1.0 to ±10.0 C. “eQADC Conversion Specifications (Operating)” table: Changed spec #13 (non-disruptive injection current) values from ±1 to ±3. "IPCLKDIV Settings" table, removed footnote "eMIOS and DMA are not considered peripherals here.
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Revision History Table 46. Revision History (continued) Revision (Date) Description of changes 8 Removed spec 3 from Table 27 “PFCPR1 Settings vs Frequency of Operation” (Jun-2011) Updated spec 2a (Untrimmed VRC 1.2V) in Table 11 “PMC Electrical Specifications“ to a max value of VDD12OUT + 17%. Updated item 26 (Operating Current VDDA Supply) in table 14 “Electrical Specifications” from 30 mA to 40 mA.
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Revision History Table 46. Revision History (continued) Revision (Date) Description of changes Updated Table 3, “Absolute Maximum Ratings” with the following: - Spec 1, ‘1.2 V Core Supply Voltage’, to a Max of 2.0 V - Spec 3, ‘Clock Synthesizer Voltage’, to a Max of 5.3 V - Spec 4, ‘I/O Supply Voltage’ to a Max of 5.3 V - Spec 5, ‘Analog Supply Voltage’ to a Max of 5.3 V - Note 2 to read, “2.0 V for 10 hours cumulative time, 1.32 V +10% for time remaining.“ - Note 3, “... 5.0 V + 10% ...” to “... 5.
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Revision History Table 46. Revision History (continued) Revision (Date) Description of changes 9 Updated Table 1 (Orderable Part Numbers) with actual available parts.Added new part number (Oct-2012) SPC5673FF3MVY2 ,Package description 516 PBGA, w/EBI, Pb-free.Speed is 200Mhz nom and max. —Removed note attached to “Orderable Part Numbers” and “Freescale Part Number”. Updated footnotes of Table 3 (Absolute Maximum Ratings) to: • 2.0 V for 10 hours cumulative time, 1.2V +10% for time remaining. • 6.
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How to Reach Us: Home Page: www.freescale.com Web Support: http://www.freescale.com/support USA/Europe or Locations Not Listed: Freescale Semiconductor, Inc. Technical Information Center, EL516 2100 East Elliot Road Tempe, Arizona 85284 1-800-521-6274 or +1-480-768-2130 www.freescale.