MPC8378E-MDS-PB Freescale Semiconductor, MPC8378E-MDS-PB Datasheet

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... Technical Data MPC8378E PowerQUICC II Pro Processor Hardware Specifications This document provides an overview of the MPC8378E PowerQUICC II Pro processor features, including a block diagram showing the major functional components. The device is a cost-effective, low-power, highly integrated host processor that addresses the requirements of several printing ...

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... The optional security engine (SEC 3.0) is noted with the extension “E” at the end. It allows CPU-intensive cryptographic operations to be offloaded from the main CPU core. The security-processing accelerator provides hardware acceleration for the DES, 3DES, AES, SHA-1, and MD-5 algorithms. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev MPC8378E ...

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... In addition to the security engine, new high-speed interfaces, such as SGMII interface on enhanced Ethernet and PCI Express, are included. and provides the number of ports available for each interface. Table 1. High-Speed Interfaces on the MPC8377E, MPC8378E, and MPC8379E Descriptions SGMII PCI Express® SATA 1.1 ...

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... The device provides an integrated four-channel DMA controller with the following features: • Allows chaining (both extended and direct) through local memory-mapped chain descriptors (accessible by local masters) • Supports misaligned transfers MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev DUART, Enhanced Local Bus Controller Freescale Semiconductor ...

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... Single 32-bit data PCI interface operates MHz • PCI 3.3-V compatible (not 5-V compatible) • Support for host and agent modes • On-chip arbitration, supporting 5 external masters on PCI • Selectable hardware-enforced coherency MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Overview 5 ...

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... Electrical Characteristics This section provides the AC and DC electrical specifications and thermal characteristics for the MPC8378E. The device is currently targeted to these specifications. Some of these specifications are independent of the I/O cell, but are included for a more complete reference. These are not purely I/O buffer design specifications ...

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... IN REF the PCI interface may overshoot/undershoot according to the PCI Electrical Specification for 3.3-V operation shown in Figure 2. 6 L[1,2]_nV includes SDAV _0, XCOREV DD DD MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Table 2. Absolute Maximum Ratings Symbol and OV DD ...

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... direction. 2 L[1,2]_nV , SDAV _0, XCOREV DD DD MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev 667 MHz 800 MHz up to 667 MHz 800 MHz 2 C, and up to 667 MHz L[1,2]_nV 800 MHz commerical ...

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... GPIO signals 1 Specialized SerDes output capabilities are described in the relevant sections of these specifications (such as SGMII and PCI Express) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Not to Exceed 10% of tinterface1 refers to the clock period associated with the bus clock interface. ...

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... DD The opposite sequence applies to the power down requirements. The I/O supplies must go down first and immediately followed by the core and PLL supplies. 3 Power Characteristics The estimated typical power dissipation for the MPC8378E device is shown in Core Frequency CSB/DDR Frequency (MHz) (MHz) 333 ...

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... Typical power is based on a voltage of V 800 MHz, and running a Dhrystone benchmark application. 4 Maximum power is based on a voltage 800 MHz, worst case process, and running an artificial smoke test. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor 1 (continued) Sleep Power Typical Application ...

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... MHz, 0.09 32-bit 133 MHz, 0.07 32-bit Local Bus I/O 83 MHz, 0.05 Load = 32-bit MHz, 0.04 32-bit 50 MHz, 0.03 32-bit MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev /LBV (2.5 V) (3.3 V) (3.3 V) (2.5 V) 0.35 — — — 0.49 — ...

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... Clock Input Timing This section provides the clock input DC and AC electrical characteristics for the MPC8378E. Note that the PCI_CLK/PCI_SYNC_IN signal or CLKIN signal is used as the PCI input clock depending on whether the device is configured as a host or agent device. CLKIN is used when the device is in host mode. ...

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... PHY device can tolerate the duty cycle generated by the eTSEC GTX_CLK. See Section 8.3.4, “RGMII and RTBI AC Timing reference clock. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Table 8. CLKIN AC Timing Specifications Symbol Min ...

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... Input setup time for POR config signals (CFG_RESET_SOURCE[0:3], CFG_CLKIN_DIV, and CFG_LBMUX) with respect to negation of PORESET when the device is in PCI agent mode Input hold time for POR config signals with respect to negation of HRESET MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol Condition V — ...

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... I/O reference voltage I/O termination voltage Input high voltage Input low voltage Output leakage current Output high current (V = 1.40 V) OUT MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Table 12. PLL Lock Times Min Max — 100 (typ) = 2.5 V and DDR2 SDRAM ...

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... MV . This rail should track variations in the DC level of MV REF 4 Output leakage is measured with all outputs disabled See AN3665, “MPC837xE Design Checklist,” for proper DDR termination. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol Min I 13 all times. ...

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... AC input high voltage Table 19 provides the input AC timing specifications for the DDR1 SDRAM when GV Table 19. DDR1 SDRAM Input AC Timing Specifications for 2.5-V Interface Parameter AC input low voltage AC input high voltage MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev (typ Symbol Min C IO ...

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... MHz data rate MCSn output hold with respect to MCK 400 MHz data rate 333 MHz data rate 266 MHz data rate 200 MHz data rate MCK to MDQS skew MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol Min t CISKEW –500 – ...

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... Clock Control register is set to adjust the memory clocks by 1/2 the applied cycle. 8 See AN3665, “MPC837xE Design Checklist,” for proper DDR termination. The minimum frequency for DDR2 is 250 MHz data rate (125 MHz clock), 167 MHz data rate (83 MHz clock) for DDR1. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol Min ...

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... DDKHMH Figure 5 shows the DDR1 and DDR2 SDRAM output timing diagram. MCK[n] MCK[n] ADDR/CMD Write A0 MDQS[n] MDQ[x] Figure 5. DDR1 and DDR2 SDRAM Output Timing Diagram MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor MCK[n] MCK[n] t MCK t DDKHMHmax) = 0.6 ns MDQS t DDKHMH(min) = –0.6 ns MDQS Figure 4 ...

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... Maximum baud rate Oversample rate Notes: 1 Actual attainable baud rate will be limited by the latency of interrupt processing. 2 The middle of a start bit is detected as the 8 th sampled each 16 sample. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Ω Figure 6. DDR AC Test Load Symbol Min ...

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... MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor 7, where C is the external (on board) AC-coupled capacitor. Each output ...

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... Min, IOH = –1.0 mA) DD1 DD2 Output low voltage (LV /LV = Min 1.0 mA) DD1 DD2 OL Input high voltage Input low voltage MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Table 25 are based on a 2.5 V CMOS interface voltage as Symbol Min LV 3.13 DD1 LV DD2 V 2.40 LV ...

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... SGMII protocol (L1_nV Table 26. SGMII DC Transmitter Electrical Characteristics Parameter Symbol Supply voltage XV (L1_SDAV _0, DD L1_XCOREV ) DD Output high voltage Output low voltage Output ringing MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol Min I — –20 IL NOTE = 1.0 V). DD Min Typ ...

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... SerDes1 transmitter is terminated with 100-Ω differential load between SD_TXn and SD_TXn. OS Table 27. SGMII DC Receiver Electrical Characteristics Parameter Supply voltage (L1_SDAV _0, L1_XCOREV ) input voltage range MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Min Typ |V | 323 500 OD 296 459 269 ...

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... Section 20.2.2, “DC Level Requirement for SerDes Reference Clocks.” 8.3 SGMII, MII, RGMII, RMII, and RTBI AC Timing Specifications The AC timing specifications for SGMII, MII, RGMII, RMII, and RTBI are presented in this section. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol Min ...

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... At recommended operating conditions with XV Parameter Deterministic Jitter Total Jitter Unit Interval V fall time (80%–20 rise time (20%–80%) OD Notes: 1 Each UI is 800 ps ± 100 ppm. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Figure 50Ω Figure 9. SGMII AC Test/Measurement Load = 1.0 V ± 5%. DD_SRDS Symbol Min Typical J — ...

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... SGMII receiver input compliance mask eye diagram. V RX_DIFFp-p-max /2 V RX_DIFFp-p-min /2 –V RX_DIFFp-p-min /2 –V RX_DIFFp-p-max /2 Figure 10. SGMII Receiver Input Compliance Mask MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Ethernet: Enhanced Three-Speed Ethernet (eTSEC) = 1.0 V ± 5%. DD_SRDS Symbol Min J 0 ...

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... Table 31. MII Transmit AC Timing Specifications At recommended operating conditions with LV Parameter TX_CLK clock period 10 Mbps TX_CLK clock period 100 Mbps TX_CLK duty cycle TX_CLK to MII data TXD[3:0], TX_ER, TX_EN delay MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol t CK_REF 100 MHz 125 MHz ...

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... Input low voltage Input high voltage RX_CLK clock period 10 Mbps RX_CLK clock period 100 Mbps RX_CLK duty cycle RXD[3:0], RX_DV, RX_ER setup time to RX_CLK RXD[3:0], RX_DV, RX_ER hold time to RX_CLK MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor of 3.3 V ± 5 Symbol t ...

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... RGMII and RTBI AC timing specifications. Table 33. RGMII and RTBI AC Timing Specifications At recommended operating conditions with LV Parameter Data to clock output skew (at transmitter) Data to clock input skew (at receiver) Clock period MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev 3.3 V ± 5 Symbol t MRXR ...

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... This symbol represents the external EC_GTX_CLK125 and does not follow the original signal naming convention. Figure 14 provides the AC test load for eTSEC. Output MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Ethernet: Enhanced Three-Speed Ethernet (eTSEC) of 2.5 V ± 5 Symbol ...

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... The RMII transmit AC timing specifications are in Table 34. RMII Transmit AC Timing Specifications At recommended operating conditions with LV Parameter REF_CLK clock period REF_CLK duty cycle REF_CLK peak-to-peak jitter Rise time REF_CLK (20%–80%) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev RGTH t SKRGT TXD[8:5] TXD[3:0] TXD[7:4] ...

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... Parameter/Condition Input low voltage at 3 Input high voltage at 3 REF_CLK clock period REF_CLK duty cycle REF_CLK peak-to-peak jitter Rise time REF_CLK (20%–80%) Fall time REF_CLK (80%–20%) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor of 3.3 V ± 5 Symbol t RMTF t RMTDX (first two letters of functional block)(signal)(state) (reference)(state) for outputs ...

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... Management Interface Electrical Characteristics The electrical characteristics specified here apply to MII management interface signals MDIO (management data input/output) and MDC (management data clock). Figure 19 provides the AC test load for eTSEC. Output MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev 3.3 V ± 5%. DD Symbol t ...

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... Table 38. MII Management AC Timing Specifications Parameter MDC frequency MDC period MDC clock pulse width high MDC to MDIO valid MDC to MDIO delay MDIO to MDC setup time MDIO to MDC hold time MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Table 36 and Conditions Symbol — LV DD1 ...

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... MII management AC timing diagram. MDC MDIO (Input) MDIO (Output) Figure 20. MII Management Interface Timing Diagram 9 USB This section provides the AC and DC electrical characteristics for the USB dual-role controllers. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol Min Typical t — MDCR t — ...

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... For active/float timing measurements, the high impedance or off state is defined to be when the total current delivered through the component pin is less than or equal to that of the leakage current specification. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Table 39. USB DC Electrical Characteristics ...

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... Output high voltage I = –4 Output low voltage I OL Input high voltage Input low voltage Input high current Input low current MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Ω Figure 21. USB AC Test Load t USIVKH t USKHOX Figure 22. USB Interface Timing Diagram provide the DC electrical characteristics for the local bus interface. ...

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... LALE output fall to LAD output transition (LATCH hold time) LALE output fall to LAD output transition (LATCH hold time) LALE output fall to LAD output transition (LATCH hold time) Local bus clock to LALE rise Local bus clock to output valid (except LALE) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor = 2 Conditions — ...

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... LBCR[AHD] is not set and the load on LALE output pin equals to the load on LAD output pins. LBOTOT3 8 For purposes of active/float timing measurements, the Hi-Z or off state is defined to be when the total current delivered through the component pin is less than or equal to the leakage current specification. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol t ...

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... For purposes of active/float timing measurements, the Hi-Z or off state is defined to be when the total current delivered through the component pin is less than or equal to the leakage current specification. Figure 23 provides the AC test load for the local bus. Output MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor 1 Symbol t ...

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... Input Signal: LGTA Output Signals: LSDA10/LSDWE/LSDRAS/ LSDCAS/LSDDQM[0:3] LA[27:31]/LBCTL/LBCKE/LOE Output (Data) Signals: LAD[0:31]/LDP[0:3] Output (Address) Signal: LAD[0:31] LALE Figure 24. Local Bus Signals, Non-special Signals Only (PLL Enable Mode) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev LBIVKH t LBIVKH t LBKHOX t LBKHOV t LBKHOZ ...

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... LGTA Output Signals: LSDA10/LSDWE/LSDRAS/ LSDCAS/LSDDQM[0:3] LA[27:31]/LBCTL/LBCKE/LOE Output (Data) Signals: LAD[0:31]/LDP[0:3] Output (Address) Signal: LAD[0:31] LALE Figure 25. Local Bus Signals, Non-special Signals Only (PLL Bypass Mode) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor t LBIVKH t LBKHOV t LBKHOZ t LBKHOV t LBKHOZ ...

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... Input Signals: LAD[0:31]/LDP[0:3] UPM Mode Output Signals: LCS[0:7]/LBS[0:1]/LGPL[0:5] Output (Data) Signals: LAD[0:31]/LDP[0:3] Output (Address) Signal: LAD[0:31] Figure 26. Local Bus Signals, GPCM/UPM Signals for LCRR[CLKDIV (PLL Enable Mode) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev LBKHOV LBKHOX t LBIVKH t ...

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... LAD[0:31]/LDP[0:3] UPM Mode Output Signals: LCS[0:7]/LBS[0:1]/LGPL[0:5] Output (Data) Signals: LAD[0:31]/LDP[0:3] Output (Address) Signal: LAD[0:31] Figure 27. Local Bus Signals, GPCM/UPM Signals for LCRR[CLKDIV (PLL Bypass Mode) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor t LBKHOZ t LBKHOV t LBIVKH ...

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... Input Signals: LAD[0:31] UPM Mode Output Signals: LCS[0:7]/LBS[0:1]/LGPL[0:5] Output (Data) Signals: LAD[0:31]/LDP[0:3] Output (Address) Signal: LAD[0:31] Figure 28. Local Bus Signals, GPCM/UPM Signals for LCRR[CLKDIV (PLL Enable Mode) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev LBKHOZ t LBKHOV t LBIVKH t LBIVKH ...

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... SD_DAT[0:3]/CMD as outputs and sample the SD_DAT[0:3] as inputs. This behavior is true for both full- and high-speed modes. Note that this is a non-standard implementation, as the SD card specification assumes that in high-speed mode, data is driven at the rising edge of the clock. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Enhanced Secure Digital Host Controller (eSDHC) t ...

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... SD_CLK clock frequency—full speed mode SD_CLK clock cycle SD_CLK clock frequency—identification mode SD_CLK clock low time SD_CLK clock high time SD_CLK clock rise and fall times Input setup times: SD_CMD, SD_DATx, SD_CD to SD_CLK MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol Condition V — — ...

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... For reference only, according to the SD card specifications. 4 Average, for reference only. Figure 30 provides the eSDHC clock input timing diagram. eSDHC External Clock operational mode Figure 30. eSDHC Clock Input Timing Diagram MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor = 3.3 V ± 165 mV Symbol t SFSIXKH t ...

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... DATA_DELAY CLK_DELAY 11.2.1.2 Full-Speed Write Meeting Hold (Minimum Delay) The following equations show how to calculate the allowed skew range between the SD_CLK and SD_DAT/CMD signals on the PCB. t CLK_DELAY MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev (Clock Cycle) SFSCK Driving Edge t SFSKHOV ...

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... Full-Speed Read Meeting Setup (Maximum Delay) The following equations show how to calculate the allowed combined propagation delay range of the SD_CLK and SD_DAT/CMD signals on the PCB. t CLK_DELAY CLK_DELAY MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor + t t < – IH SFSKHOX SFSCKL DATA_DELAY < ...

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... Input hold times: SD_CMD, SD_DATx, SD_CD to SD_CLK Output delay time: SD_CLK to SD_CMD, SD_DATx valid Output Hold time: SD_CLK to SD_CMD, SD_DATx invalid SD_CLK delay within device SD Card Input Setup SD Card Input Hold SD Card Output Valid MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev > DATA_DELAY = 3.3 V ± ...

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... Average, for reference only. Figure 33 provides the eSDHC clock input timing diagram. eSDHC External Clock operational mode Figure 33. eSDHC Clock Input Timing Diagram MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor = 3.3 V ± 165 mV Symbol t OH (first three letters of functional block)(signal)(state) ...

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... This means that data delay should be equal or less than the clock delay in the ideal case where ns: SHSCLKL t t – DATA_DELAY CLK_DELAY t t – DATA_DELAY CLK_DELAY MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev (Clock Cycle) SHSCK Driving Edge t CLK_DELAY SHSKHOV t SHSCKL SHSKHOX t ...

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... Note that the internal clock which is guaranteed to be 50% duty cycle is used to sample the data, and therefore used in the equations. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor < t ...

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... The following equation is the combined formula to calculate the propagation delay range of the SD_CLK and SD_DAT/CMD signals on the PCB. × 0 – SHSCK OH SHSIXKH 12 JTAG This section describes the DC and AC electrical specifications for the IEEE 1149.1 (JTAG) interface of the MPC8378E. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev DATA_DELAY ODLY SHSIVKH × < 1 – ...

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... JTAG external clock rise and fall times TRST assert time Input setup times: Boundary-scan data Input hold times: Boundary-scan data Valid times: Boundary-scan data Output hold times: Boundary-scan data MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol Condition V — — — ...

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... Figure 36. AC Test Load for the JTAG Interface Figure 37 provides the JTAG clock input timing diagram. JTAG External Clock Figure 37. JTAG Clock Input Timing Diagram Figure 38 provides the TRST timing diagram. TRST MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol t JTKLDZ TDO t JTKLOZ (first two letters of functional block)(signal)(state) (reference)(state) for outputs ...

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... JTAG External Clock TDI, TMS t JTKLOX TDO TDO Output Data Valid Figure 40. Test Access Port Timing Diagram MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor VM t JTDVKH t JTKLDV t JTKLDZ VM = Midpoint Voltage (OVDD/2) Figure 39. Boundary-Scan Timing Diagram ...

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... Low period of the SCL clock High period of the SCL clock Setup time for a repeated START condition Hold time (repeated) START condition (after this period, the first clock pulse is generated) Data setup time MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev interface of the MPC8378E. 2 Table 51 Electrical Characteristics of 3.3 V ± ...

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... For rise and fall times, the latter convention is used with the appropriate letter: R (rise (fall). 2 MPC8378E provides a hold time of at least 300 ns for the SDA signal (referred to the V undefined region of the falling edge of SCL. 3 ...

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... This section describes the general AC timing parameters of the PCI bus of the device. Note that the PCI_CLK/PCI_SYNC_IN or CLKIN signal is used as the PCI input clock depending on whether the MPC8378E is configured as a host or agent device. CLKIN is used when the device is in host mode. Table 54 shows the PCI AC timing specifications at 66 MHz ...

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... Input timings are measured at the pin. 5 PCI specifications allows 2 ns skew for 33 MHz but includes the total allowed skew, board, connectors, etc. 6 Value does not comply with the PCI 2.3 Local Bus Specifications. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor , VIH = 0.7 × ...

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... PCI Express This section describes the DC and AC electrical specifications for the PCI Express bus. 15.1 DC Requirements for PCI Express SD_REF_CLK and SD_REF_CLK For more information see Section 20, “High-Speed Serial Interfaces (HSSI).” MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Ω Ω Figure 43 ...

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... PCI Express Base Specification, Rev. 1.0a. The voltage levels of the transmitter and the receiver depend on the SerDes control registers which should be programmed at the recommended values for PCI Express protocol (that is, L1_nV MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol Min t — ...

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... TX-CM-Idle-DC (During Electrical during LO and electrical |<=100 mV Idle) idle TX-CM-DC |V – V TX-D+ TX-D- V TX-CM-Idle-DC |V – V TX-D+ TX-D- Idle] MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol is 400 ps ± 300 UI does not account – V TX-D+ TX-DIFFp-p of the V PEDPPTX TX-DE-RATIO T TX-EYE = 1 – T TX-EYE-MEDIAN-to- ...

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... This is considered a debounce time for the Tx to meet all Tx specifications after leaving electrical idle Differential return loss Measured over 50 MHz to 1.25 GHz. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol – TX-CM-DC-D- TX-CM-DC-LINE- DELTA ...

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... PCI Express interconnect + Rx component. There are two eye diagrams that must be met for the transmitter. Both diagrams must be aligned in time using the jitter median to locate the center of the eye diagram. The different eye diagrams differ in voltage depending on whether MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Symbol ...

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... Each U PERX ppm. U PERX for Spread Spectrum Clock dictated variations. Differential peak-to-peak V PEDPPRX output voltage V | RX-D- MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor NOTE = 0 mV TX-DIFF [Transition Bit 800 mV TX-DIFFp-p-MIN [De-emphasized Bit] 566 mV (3 dB) >= V >= 505 mV (4 dB) TX-DIFFp-p-MIN 0 – ...

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... Powered down DC input Required well as D– impedance DC impedance when the receiver terminations do not have power × |V Electrical idle detect V PEEIDT threshold Measured at the package pins of the receiver MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Comments Symbol T RX-EYE = 1 – T RX-EYE-MEDIAN-to -MAX-JITTER = 0 PEDPPRX = |V – ...

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... PCI Express component. The degraded eye diagram at the input receiver is due to traces internal to the package as well as silicon MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Comments ...

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... PEACCTX V RX-DIFF (D+ D– Crossing Point) Figure 47. Minimum Receiver Eye Timing and Voltage Compliance Specification MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Figure 47) expected at the input receiver based on an NOTE Figure 48). Note that the series capacitors, ...

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... TX Silicon + Package D– Package Pin Figure 48. Compliance Test/Measurement Load 16 Timers This section describes the DC and AC electrical specifications for the timers of the MPC8378E. 16.1 Timers DC Electrical Characteristics Table 59 provides the DC electrical characteristics for the device timers pins, including TIN, TOUT, TGATE, and RTC_CLK. ...

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... Timers inputs are required to be valid for at least t Figure 49 provides the AC test load for the timers. Output 17 GPIO This section describes the DC and AC electrical specifications for the GPIO of the MPC8378E. 17.1 GPIO DC Electrical Characteristics Table 61 provides the DC electrical characteristics for the device GPIO. ...

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... This section describes the DC and AC electrical specifications for the external interrupt pins of the MPC8378E. 18.1 IPIC DC Electrical Characteristics Table 63 provides the DC electrical characteristics for the external interrupt pins of the MPC8378E. Parameter Input high voltage Input low voltage Input current Output low voltage ...

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... IPIC inputs and outputs are asynchronous to any visible clock. IPIC outputs should be synchronized before use by any external synchronous logic. IPIC inputs are required to be valid for at least t in edge triggered mode. 19 SPI This section describes the DC and AC electrical specifications for the SPI of the MPC8378E. 19.1 SPI DC Electrical Characteristics Table 65 provides the DC electrical characteristics for the device SPI ...

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... Note) Output Signals: SPIMISO (See Note) Note: The clock edge is selectable on SPI. Figure 52. SPI AC Timing in Slave Mode (External Clock) Diagram MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Symbol t NEIXKH (first two letters of functional block)(signal)(state) (reference)(state) for outputs. For example Ω ...

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... Note: The clock edge is selectable on SPI. Figure 53. SPI AC Timing in Master Mode (Internal Clock) Diagram 20 High-Speed Serial Interfaces (HSSI) The MPC8378E features two serializer/deserializer (SerDes) interfaces to be used for high-speed serial interconnect applications. See Table 1 This section describes the common portion of SerDes DC electrical specifications, which is the DC requirement for SerDes reference clocks. The SerDes data lane’ ...

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... It is also referred as the DC offset in some occasion. SDn_TX or SDn_RX A Volts SDn_TX or SDn_RX B Volts Figure 54. Differential Voltage Definitions for Transmitter or Receiver MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor (or Differential Input Swing The V – SDn_RX SDn_RX. ...

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... V), such that each phase of the differential input has a single-ended swing from 800 mV with the common mode voltage at 400 mV. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev 500 mV in one phase and –500 mV in the other 500 mV ...

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... SerDes reference clock receiver in this connection scheme has its common mode voltage set to SGND_SRDSn. Each signal wire of the differential inputs is allowed to swing below and above the command mode voltage (SGND_SRDSn). input requirement for AC-coupled connection scheme. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor 50 Ω Input Amp 50 Ω ...

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... Input Amplitude or Differential Peak < 800 mV SDn_REF_CLK SDn_REF_CLK Figure 57. Differential Reference Clock Input DC Requirements (External AC-Coupled) SDn_REF_CLK SDn_REF_CLK Figure 58. Single-Ended Reference Clock Input DC Requirements MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev 200 mV < Input Amplitude or Differential Peak < 800 mV 400 mV < SDn_REF_CLK Input Amplitude < 800 mV (from with ...

Page 85

... SerDes reference clock receiver requirement provided in this document. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor NOTE below are for conceptual reference only. Due to the ...

Page 86

... SerDes reference clock connection reference circuits for LVPECL type clock driver. Since LVPECL driver’s DC levels (both common mode voltages and output swing) are incompatible with device SerDes reference clock input’s DC requirement, AC-coupling has to be used. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev SDn_REF_CLK 100 Ω ...

Page 87

... LVPECL CLK Driver Chip CLK_Out R1 Clock Driver Clock Driver CLK_Out R1 Figure 61. AC-Coupled Differential Connection with LVPECL Clock Driver (Reference Only) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor SDn_REF_CLK 100 Ω differential PWB trace SDn_REF_CLK High-Speed Serial Interfaces (HSSI) MPC8378E 50 Ω ...

Page 88

... At recommended operating conditions with XV Parameter Rising Edge Rate Falling Edge Rate Differential Input High Voltage Differential Input Low Voltage MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Total 50 Ω. Assume clock driver’s output impedance is about 16 Ω. SDn_REF_CLK 100 Ω differential PWB trace SDn_REF_CLK 50 Ω ...

Page 89

... Minus SDn_REF_CLK Figure 63. Differential Measurement Points for Rise and Fall Time SDn_REF_CLK V CROSS MEDIAN SDn_REF_CLK Figure 64. Single-Ended Measurement Points for Rise and Fall Time Matching MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor 1.0 V ± 5%. DD_SRDS DD_SRDS Symbol Rise-Fall Matching Figure 63 ...

Page 90

... The package parameters are provided in the following list. The package type × 31 mm, 689 plastic ball grid array (TePBGA II). Package outline Interconnects Pitch Module height (typical) Solder Balls Ball diameter (typical) MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev SD1_RXn or SD1_TXn or SD2_RXn SD2_TXn 50 Ω 50 Ω ...

Page 91

... Maximum solder ball diameter measured parallel to Datum A. 4 Datum A, the seating plane, is determined by the spherical crowns of the solder balls. 5 Parallelism measurement should exclude any effect of mark on top surface of package. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package and Pin Listings 91 ...

Page 92

... MA5 MA6 MA7 MA8 MA9 MA10 MA11 MA12 MA13 MA14 MBA0 MBA1 MBA2 MCAS_B MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Table 68. TePBGA II Pinout Listing Package Pin Number Clock Signals K24 C10 N24 L24 M24 M25 M26 L26 AF11 DDR SDRAM Memory Interface ...

Page 93

... MCK3 MCK4 MCK5 MCKE0 MCKE1 MCS_B0 MCS_B1 MCS_B2 MCS_B3 MDIC0 MDIC1 MDM0 MDM1 MDM2 MDM3 MDM4 MDM5 MDM6 MDM7 MDM8 MDQ0 MDQ1 MDQ2 MDQ3 MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number AA1 AB2 AB1 AH8 AJ8 B6 ...

Page 94

... MDQ6 MDQ7 MDQ8 MDQ9 MDQ10 MDQ11 MDQ12 MDQ13 MDQ14 MDQ15 MDQ16 MDQ17 MDQ18 MDQ19 MDQ20 MDQ21 MDQ22 MDQ23 MDQ24 MDQ25 MDQ26 MDQ27 MDQ28 MDQ29 MDQ30 MDQ31 MDQ32 MDQ33 MDQ34 MDQ35 MDQ36 MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Package Pin Number ...

Page 95

... MDQ54 MDQ55 MDQ56 MDQ57 MDQ58 MDQ59 MDQ60 MDQ61 MDQ62 MDQ63 MDQS0 MDQS1 MDQS2 MDQS3 MDQS4 MDQS5 MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number Y5 AA4 AB6 AD3 AC4 AD4 AF1 AE4 AC5 AE2 AE3 AG1 AG2 AG3 ...

Page 96

... MECC6 MECC7 MODT0 MODT1 MODT2 MODT3 MRAS_B MVREF1 MVREF2 MWE_B UART_SIN1/ MSRCID2/LSRCID2 UART_SOUT1/ MSRCID0/LSRCID0 UART_CTS_B[1]/ MSRCID4/LSRCID4 UART_RTS_B1 UART_SIN2/ MSRCID3/LSRCID3 UART_SOUT2/ MSRCID1/LSRCID1 UART_CTS_B[2]/ MDVAL/LDVAL UART_RTS_B[2] MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Package Pin Number AH1 AJ3 AA3 DUART Interface L28 L27 ...

Page 97

... LA12/LAD17 LA13/LAD18 LA14/LAD19 LA15/LAD20 LA16/LAD21 LA17/LAD22 LA18/LAD23 LA19/LAD24 LA20/LAD25 LA21/LAD26 LA22/LAD27 LA23/LAD28 LA24/LAD29 LA25/LAD30 LA26/LAD31 LA27 MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number E24 G28 H25 F26 C26 J28 F21 F23 E25 E26 A23 F24 G24 ...

Page 98

... LA7/LCS_B6/LDP2 LA8/LCS_B7/LDP3 LFCLE/LGPL0 LFALE/LGPL1 LFRE_B/LGPL2/LOE_B LFWP_B/LGPL3 LGPL4/LFRB_B/LGTA_B/ LUPWAIT/LPBSE LA9/LGPL5 LSYNC_IN LSYNC_OUT LWE_B0/LFWE0/LBS_B0 LWE_B1/LFWE1/LBS_B1 LWE_B2/LFWE2/LBS_B2 LWE_B3/LFWE3/LBS_B3 TSEC1_COL/GPIO2[20] TSEC1_CRS/GPIO2[21] MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev Package Pin Number C29 E28 B26 J25 H29 A22 B22 C23 B23 D25 F19 C27 D24 C24 ...

Page 99

... CFG_RESET_SOURCE[3] EC_GTX_CLK125 EC_MDC/CFG_CLKIN_DIV EC_MDIO TSEC2_COL/GPIO1[21]/ TSEC1_TMR_TRIG1 TSEC2_CRS/GPIO1[22]/ TSEC1_TMR_TRIG2 TSEC2_GTX_CLK TSEC2_RX_CLK/ TSEC1_TMR_CLK TSEC2_RX_DV/GPIO1[23] TSEC2_RX_ER/GPIO1[25] TSEC2_RXD0/GPIO1[16] TSEC2_RXD1/GPIO1[15] TSEC2_RXD2/GPIO1[14] MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number AJ25 AG22 AD19 AD20 AD22 AE21 AE22 AD21 AJ22 AG23 AH22 AD23 AE23 ...

Page 100

... GTM2_TOUT1_B/DDONE1_B GPIO1[6]/GTM1_TIN3/ GTM2_TIN4/DREQ2_B GPIO1[7]/GTM1_TGATE3_B/ GTM2_TGATE4_B/DACK2_B GPIO1[8]/GTM1_TOUT3_B/ DDONE2_B GPIO1[9]/GTM1_TIN4/ GTM2_TIN3/DREQ3_B GPIO1[10]/GTM1_TGATE4_B/ GTM2_TGATE3_B/DACK3_B GPIO1[11]/GTM1_TOUT4_B/ GTM2_TOUT3_B/DDONE3_B MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 100 Package Pin Number AH25 AG28 AJ26 AG26 AH28 AF27 AJ28 AF29 GPIO1 Interface P25 ...

Page 101

... USBDR_D4_DP/GPIO2[4] USBDR_D5_DM/GPIO2[5] USBDR_D6_SER_RCV/ GPIO2[6] USBDR_D7_DRVVBUS/ GPIO2[7] IIC1_SCL IIC1_SDA IIC2_SCL IIC2_SDA TCK TDI TDO TMS TRST_B MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number USB/GPIO2 Interface AJ11 AG12 AJ10 AF10 AE9 AG13 AH12 AG10 AF13 AG11 AH11 AG9 ...

Page 102

... PCI_AD15 PCI_AD16 PCI_AD17 PCI_AD18 PCI_AD19 PCI_AD20 PCI_AD21 PCI_AD22 PCI_AD23 PCI_AD24 PCI_AD25 PCI_AD26 PCI_AD27 PCI_AD28 PCI_AD29 PCI_AD30 MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 102 Package Pin Number PCI Signals P26 N28 P29 P27 R26 R29 T24 T25 R27 P28 U25 R28 ...

Page 103

... PCI_REQ_B[1]/CPCI_HS_ES PCI_REQ_B2 PCI_REQ_B3 PCI_REQ_B4 PCI_RESET_OUT_B PCI_SERR_B PCI_STOP_B PCI_TRDY_B M66EN Programmable Interrupt Controller (PIC) Interface MCP_OUT_B IRQ_B0/MCP_IN_B/GPIO2[12] IRQ_B1/GPIO2[13] MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number AE24 T26 T28 V29 Y29 U28 V27 AE27 AC28 AD27 AC27 ...

Page 104

... L1_SD_RXA_P L1_SD_RXE_N L1_SD_RXE_P L1_SD_TXA_N L1_SD_TXA_P L1_SD_TXE_N L1_SD_TXE_P L1_SDAVDD_0 L1_SDAVSS_0 L1_XCOREVDD L1_XCOREVSS AG14, AG15, AG16, AH16, AG18, AG20 L1_XPADVDD MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 104 Package Pin Number F10 D9 C9 AE10 AD10 AD9 PMC Interface D13 SerDes1 Interface AJ14 AG19 ...

Page 105

... L2_SD_TXA_N L2_SD_TXA_P L2_SD_TXE_N L2_SD_TXE_P L2_SDAVDD_0 L2_SDAVSS_0 L2_XCOREVDD L2_XCOREVSS L2_XPADVDD L2_XPADVSS SPICLK/SD_CLK SPIMISO/SD_DAT0 SPIMOSI/SD_CMD SPISEL_B/SD_CD MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number AF14, AE17, AF20 SerDes2 Interface C19 C15 B17 A17 A19 B19 A15 B15 D18 E18 ...

Page 106

... W18, L19, M19, N19, P19, T19, U19, V19, W19, AC20, G21, AF21, C22, J23, AA23, AJ23, B24, W24, AF24, K25, R25, AD25, D26, G27, M27, T27, Y27, AB27, AG27, A29, MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 106 Package Pin Number AD12 ...

Page 107

... Open or tie to GND. 16 Voltage settings are dependent on the frequency used; see 17 See AN3665, “MPC837xE Design Checklist,” for proper eTSEC termination. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Package Pin Number AD13 Power for e300 core PLL (1.0 V F13 Power for eLBC PLL (1 ...

Page 108

... Clocking 22 Clocking Figure 67 shows the internal distribution of clocks within the MPC8378E. System PLL CFG_CLKIN_DIV CLKIN The primary clock source for the device can be one of two inputs, CLKIN or PCI_CLK, depending on whether the device is configured in PCI host or PCI agent mode. When the device is configured as a PCI host device, CLKIN is its primary input clock. CLKIN feeds the PCI clock divider (÷ ...

Page 109

... PCI and DMA complex PCI Express1 This only applies clock is not configurable). MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor specifies which units have a configurable clock frequency. Table 69. Configurable Clock Units Default Frequency csb_clk/3 Off, csb_clk, csb_clk/2, csb_clk/3 csb_clk/3 Off, csb_clk, csb_clk/2, csb_clk/3 ...

Page 110

... If either RCWLR[DDRCM] or RCWLR[LBCM] are set, the system PLL VCO frequency = 2 × (CSB frequency) × (System PLL VCO Divider). The VCO divider needs to be set properly so that the System PLL VCO frequency is in the range of 400–800 MHz. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 110 Minimum Operating 1 ...

Page 111

... High 0010 High 0011 High 0100 High 0101 High 0110 MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Table 71. System PLL Multiplication Factors The LBIUCM, DDRCM, and SPMF parameters in the reset Table 72. System PLL VCO Divider csb_clk : 2 Input Clock Ratio ...

Page 112

... Low 0111 Low 1000 Low 1001 Low 1010 Low 1011 Low 1100 Low 1101 Low 1110 Low 1111 MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 112 Input Clock Frequency (MHz) csb_clk : 25 2 Input Clock Ratio 175 200 225 250 275 300 ...

Page 113

... MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor shows the encodings for RCWLR[COREPLL]. COREPLL values NOTE Table 75. e300 Core PLL Configuration core_clk : csb_clk Ratio 6 0 PLL bypassed (PLL off, csb_clk clocks core directly) n n/a ...

Page 114

... CSB frequencies less than 133 MHz will not support Gigabit Ethernet rates. 4 Minimum data rate for DDR2 is 250 MHz and for DDR1 is 167 MHz. 5 Applies to DDR2 only. 6 Applies to eLBC PLL-enabled mode only. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 114 core_clk : csb_clk Ratio 6 0 4:1 0 ...

Page 115

... An estimation of the chip junction temperature θ where junction temperature (° ambient temperature for the package (° junction to ambient thermal resistance (°C/W) θ JA MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor × where I/O I/O , can be obtained from the equation: J × Symbol Value Unit ° ...

Page 116

... where junction temperature (° thermocouple temperature on top of package (°C) T MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 116 – J NOTE × NOTE Ψ determine the junction temperature and a measure of the JT × ...

Page 117

... The heat sink choice is determined by the application environment (temperature, air flow, adjacent component power dissipation) and the physical space available. Because of the wide variety of application environments, a single standard heat sink applicable to all cannot be specified. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor θ ...

Page 118

... Heat sink vendors include the following: Aavid Thermalloy www.aavidthermalloy.com Alpha Novatech www.alphanovatech.com International Electronic Research Corporation (IERC) www.ctscorp.com Millennium Electronics (MEI) www.mei-thermal.com MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 118 Thermal Resistance Air Flow Natural Convection 0.5 m/s 1 m/s 2 m/s 4 m/s Natural Convection 0 ...

Page 119

... From this case temperature, the junction temperature is determined from the junction to case thermal resistance θ where junction temperature (° case temperature of the package (°C) C MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor × Thermal 119 ...

Page 120

... PCB, utilizing short traces to minimize inductance. Capacitors may be placed directly under the device using a standard escape pattern. Others may surround the part. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 120 , and preferably these voltages will be derived directly from V ...

Page 121

... When data is held high, SW1 is closed (SW2 is open) and R OV /2. R then becomes the resistance of the pull-up devices other in value. Then MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor 2 C). is trimmed until the voltage at the pad equals P )/2. N OVDD R N Pad ...

Page 122

... For more information on required pull-up resistors and the connections required for the JTAG interface, see AN3665, “MPC837xE Design Checklist.” 25 Ordering Information Ordering information for the parts fully covered by this specification document is provided in Section 25.1, “Part Numbers Fully Addressed by This Document.” MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 122 × ...

Page 123

... Part Numbers Fully Addressed by This Document Table 80 provides the Freescale part numbering nomenclature for the MPC8378E. Note that the individual part numbers correspond to a maximum processor core frequency. For available frequencies, contact your local Freescale sales office. In addition to the processor frequency, the part numbering scheme also includes an application modifier which may specify special application conditions ...

Page 124

... MPC8377E MPC8378 TePBGA II MPC8378E MPC8379 MPC8379E 25.2 Part Marking Parts are marked as in the example shown in Figure 70. Freescale Part Marking for TePBGA II Devices MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 124 SVR Rev 1.0 Rev. 2.1 0x80C7_0010 0x80C7_0021 0x80C6_0010 0x80C6_0021 0x80C5_0010 ...

Page 125

... Frequency Options for Host Mode,” and Mode,” updated csb_clk frequencies available. • In Table 80, “Part Numbering Nomenclature,” removed footnote to “e300 core Frequency.” MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 Freescale Semiconductor Table 83. Document Revision History Substantive Change(s) Characteristics,” ...

Page 126

... In Table 81, “Available Parts (Core/DDR Data Rate),” added new row for 800/400 MHz. 0 12/2008 Initial public release. MPC8378E PowerQUICC II Pro Processor Hardware Specifications, Rev. 4 126 Substantive Change(s) 1 ,” corrected maximal application for 800/400 MHz to 4 ,” ...

Page 127

... Literature Distribution Center 1-800 441-2447 or +1-303-675-2140 Fax: +1-303-675-2150 LDCForFreescaleSemiconductor @hibbertgroup.com Document Number: MPC8378EEC Rev. 4 11/2010 Information in this document is provided solely to enable system and software implementers to use Freescale Semiconductor products. There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits or integrated circuits based on the information in this document ...