Freescale Semiconductor Document Number: MPC8250EC Rev. 1, 03/2005 MPC8250 Hardware Specifications This document contains detailed information on power considerations, DC/AC electrical characteristics, and AC timing specifications for the MPC8250 PowerQUICC II™ communications processor. The following topics are addressed: The MPC8250 is available in two packages—the standard ZU package (480 TBGA) and an alternate VR package (516 PBGA)—as described in Section 4, “Pinout,” and Section 5, “Package Description.” For more information on VR packages, contact your Freescale sales office. Note that throughout this document references to the MPC8250 are inclusive of its VR version unless otherwise specified. This document contains information on a new product. Specifications and information herein are subject to change without notice. © Freescale Semiconductor, Inc., 2003, 2005. All rights reserved. 1. 2. 3. 4. 5. 6. 7. Contents Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Electrical and Thermal Characteristics . . . . . . . . . . . . 6 Clock Configuration Modes . . . . . . . . . . . . . . . . . . . 20 Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 Package Description . . . . . . . . . . . . . . . . . . . . . . . . . 55 Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . 58 Document Revision History . . . . . . . . . . . . . . . . . . . 58 Features Figure 1 shows the block diagram for the MPC8250. 16 Kbytes I-Cache I-MMU System Interface Unit (SIU) G2 Core 16 Kbytes D-Cache Bus Interface Unit Communication Processor Module (CPM) PCI Bus 32 bits, up to 66 MHz 60x-to-PCI Bridge 60x-to-Local Bridge D-MMU 60x Bus or Local Bus 32 bits, up to 66 MHz Memory Controller Timers Serial DMAs 32 Kbytes Dual-Port RAM Interrupt Controller Clock Counter Parallel I/O 32-bit RISC Microcontroller and Program ROM Baud Rate Generators MCC2 FCC1 FCC2 FCC3 SCC1 SCC2 4 Virtual IDMAs SCC3 SCC4 System Functions SMC1 SMC2 SPI I2C Time Slot Assigner Serial Interface 4 TDM Ports 3 MII Ports Non-Multiplexed I/O Figure 1. MPC8250 Block Diagram 1 Features The major features of the MPC8250 are as follows: • Footprint-compatible with the MPC8260 • Dual-issue integer core — A core version of the EC603e microprocessor — System core microprocessor supporting frequencies of 150–200 MHz — Separate 16-Kbyte data and instruction caches: – Four-way set associative – Physically addressed – LRU replacement algorithm — PowerPC architecture-compliant memory management unit (MMU) — Common on-chip processor (COP) test interface — High-performance (4.4–5.1 SPEC95 benchmark at 200 MHz; 280 Dhrystones MIPS at 200 MHz) MPC8250 Hardware Specifications, Rev. 1 2 Freescale Semiconductor Features • • • • • • • — Supports bus snooping for data cache coherency — Floating-point unit (FPU) Separate power supply for internal logic (1.8 V) and for I/O (3.3V) Separate PLLs for G2 core and for the CPM — G2 core and CPM can run at different frequencies for power/performance optimization — Internal core/bus clock multiplier that provides 1.5:1, 2:1, 2.5:1, 3:1, 3.5:1, 4:1, 5:1, 6:1 ratios — Internal CPM/bus clock multiplier that provides 2:1, 2.5:1, 3:1, 3.5:1, 4:1, 5:1, 6:1 ratios 64-bit data and 32-bit address 60x bus — Bus supports multiple master designs — Supports single- and four-beat burst transfers — 64-, 32-, 16-, and 8-bit port sizes controlled by on-chip memory controller — Supports data parity or ECC and address parity 32-bit data and 18-bit address local bus — Single-master bus, supports external slaves — Eight-beat burst transfers — 32-, 16-, and 8-bit port sizes controlled by on-chip memory controller 60x-to-PCI bridge — Programmable host bridge and agent — 32-bit data bus, 66 MHz, 3.3 V — Synchronous and asynchronous 60x and PCI clock modes — All internal address space available to external PCI host — DMA for memory block transfers — PCI-to-60x address remapping System interface unit (SIU) — Clock synthesizer — Reset controller — Real-time clock (RTC) register — Periodic interrupt timer — Hardware bus monitor and software watchdog timer — IEEE 1149.1 JTAG test access port Twelve-bank memory controller — Glueless interface to SRAM, page mode SDRAM, DRAM, EPROM, Flash and other userdefinable peripherals — Byte write enables and selectable parity generation — 32-bit address decodes with programmable bank size — Three user programmable machines, general-purpose chip-select machine, and page-mode pipeline SDRAM machine — Byte selects for 64 bus width (60x) and byte selects for 32 bus width (local) MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 3 Features • • — Dedicated interface logic for SDRAM CPU core can be disabled and the device can be used in slave mode to an external core Communications processor module (CPM) — Embedded 32-bit communications processor (CP) uses a RISC architecture for flexible support for communications protocols — Interfaces to G2 core through on-chip 32-Kbyte dual-port RAM and DMA controller — Serial DMA channels for receive and transmit on all serial channels — Parallel I/O registers with open-drain and interrupt capability — Virtual DMA functionality executing memory-to-memory and memory-to-I/O transfers — Three fast communications controllers supporting the following protocols: – 10/100-Mbit Ethernet/IEEE 802.3 CDMA/CS interface through media independent interface (MII) – Transparent – HDLC—Up to T3 rates (clear channel) — One multichannel controller (MCC2) – Handles 128 serial, full-duplex, 64-Kbps data channels. The MCC can be split into four subgroups of 32 channels each. – Almost any combination of subgroups can be multiplexed to single or multiple TDM interfaces up to four TDM interfaces per MCC — Four serial communications controllers (SCCs) identical to those on the MPC860, supporting the digital portions of the following protocols: – Ethernet/IEEE 802.3 CDMA/CS – HDLC/SDLC and HDLC bus – Universal asynchronous receiver transmitter (UART) – Synchronous UART – Binary synchronous (BISYNC) communications – Transparent — Two serial management controllers (SMCs), identical to those of the MPC860 – Provide management for BRI devices as general circuit interface (GCI) controllers in timedivision-multiplexed (TDM) channels – Transparent – UART (low-speed operation) — One serial peripheral interface identical to the MPC860 SPI — One inter-integrated circuit (I2C) controller (identical to the MPC860 I2C controller) – Microwire compatible – Multiple-master, single-master, and slave modes — Up to four TDM interfaces – Supports one group of four TDM channels MPC8250 Hardware Specifications, Rev. 1 4 Freescale Semiconductor Features – – – – • 2,048 bytes of SI RAM Bit or byte resolution Independent transmit and receive routing, frame synchronization Supports T1, CEPT, T1/E1, T3/E3, pulse code modulation highway, ISDN basic rate, ISDN primary rate, Freescale interchip digital link (IDL), general circuit interface (GCI), and user-defined TDM serial interfaces — Eight independent baud rate generators and 20 input clock pins for supplying clocks to FCCs, SCCs, SMCs, and serial channels — Four independent 16-bit timers that can be interconnected as two 32-bit timers PCI bridge — PCI Specification Revision 2.2 compliant and supports frequencies up to 66 MHz — On-chip arbitration — Support for PCI to 60x memory and 60x memory to PCI streaming — PCI Host Bridge or Peripheral capabilities — Includes 4 DMA channels for the following transfers: – PCI-to-60x to 60x-to-PCI – 60x-to-PCI to PCI-to-60x – PCI-to-60x to PCI-to-60x – 60x-to-PCI to 60x-to-PCI — Includes all of the configuration registers (which are automatically loaded from the EPROM and used to configure the MPC8265A) required by the PCI standard as well as message and doorbell registers — Supports the I2O standard — Hot-Swap friendly (supports the Hot Swap Specification as defined by PICMG 2.1 R1.0 August 3, 1998) — Support for 66 MHz, 3.3 V specification — 60x-PCI bus core logic which uses a buffer pool to allocate buffers for each port — Makes use of the local bus signals, so there is no need for additional pins MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 5 Electrical and Thermal Characteristics 2 Electrical and Thermal Characteristics This section provides AC and DC electrical specifications and thermal characteristics for the MPC8250. 2.1 DC Electrical Characteristics This section describes the DC electrical characteristics for the MPC8250. Table 1 shows the maximum electrical ratings. Table 1. Absolute Maximum Ratings 1 Rating Core supply voltage 2 PLL supply I/O supply voltage2 voltage 3 Input voltage 4 Junction temperature Storage temperature range Symbol Value Unit VDD -0.3 – 2.5 V VCCSYN -0.3 – 2.5 V VDDH -0.3 – 4.0 V VIN GND(-0.3) – 3.6 V Tj 120 °C TSTG (-55) – (+150) °C 1 Absolute maximum ratings are stress ratings only; functional operation (see Table 2) at the maximums is not guaranteed. Stress beyond those listed may affect device reliability or cause permanent damage. 2 Caution: VDD/VCCSYN must not exceed VDDH by more than 0.4 V at any time, including during power-on reset. 3 Caution: VDDH can exceed VDD/VCCSYN by 3.3 V during power on reset by no more than 100 mSec. VDDH should not exceed VDD/VCCSYN by more than 2.5 V during normal operation. 4 Caution: VIN must not exceed VDDH by more than 2.5 V at any time, including during power-on reset. Table 2 lists recommended operational voltage conditions. Table 2. Recommended Operating Conditions 1 Rating 2 3 4 5 Value Unit Core supply voltage VDD 1.7 – 1.9 2 1.7–2.1 3 1.9 –2.2 4 V PLL supply voltage VCCSYN 1.7 – 1.92 1.7–2.13 1.9–2.24 V I/O supply voltage VDDH 3.135 – 3.465 V VIN GND (-0.3) – 3.465 V Junction temperature (maximum) Tj 105 5 °C Ambient temperature TA 0–705 °C Input voltage 1 Symbol Caution: These are the recommended and tested operating conditions. Proper device operating outside of these conditions is not guaranteed. CPU frequency less than or equal to 200 MHz. CPU frequency greater than 200 MHz but less than 233 MHz. CPU frequency greater than or equal to 233 MHz. Note that for extended temperature parts the range is (-40)T – 105Tj. A MPC8250 Hardware Specifications, Rev. 1 6 Freescale Semiconductor Electrical and Thermal Characteristics NOTE: Core, PLL, and I/O Supply Voltages VDDH, VCCSYN, and VDD must track each other and both must vary in the same direction—in the positive direction (+5% and +0.1 Vdc) or in the negative direction (-5% and -0.1 Vdc). This device contains circuitry protecting against damage due to high static voltage or electrical fields; however, it is advised that normal precautions be taken to avoid application of any voltages higher than maximum-rated voltages to this high-impedance circuit. Reliability of operation is enhanced if unused inputs are tied to an appropriate logic voltage level (either GND or VCC). Figure 2 shows the undershoot and overshoot voltage of the 60x and local bus memory interface of the MPC8280. Note that in PCI mode the I/O interface is different. 4V GVDD + 5% GVDD VIH GND GND – 0.3 V VIL GND – 1.0 V Not to exceed 10% of tSDRAM_CLK Figure 2. Overshoot/Undershoot Voltage Table 3 shows DC electrical characteristics. Table 3. DC Electrical Characteristics 1 Characteristic Symbol Min Max Unit Input high voltage, all inputs except CLKIN VIH 2.0 3.465 V Input low voltage VIL GND 0.8 V VIHC 2.4 3.465 V VILC GND 0.4 V IIN — 10 µA IOZ — 10 µA Signal low input current, VIL = 0.8 V IL — 1 µA Signal high input current, VIH = 2.0 V IH — 1 µA VOH 2.4 — V CLKIN input high voltage CLKIN input low voltage Input leakage current, VIN = VDDH 2 Hi-Z (off state) leakage current, VIN = VDDH Output high voltage, IOH = –2 mA 2 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 7 Electrical and Thermal Characteristics Table 3. DC Electrical Characteristics 1 (continued) Characteristic IOL = 7.0mA BR BG ABB/IRQ2 TS A[0-31] TT[0-4] TBST TSIZE[0–3] AACK ARTRY DBG DBB/IRQ3 D[0-63] DP(0)/RSRV/EXT_BR2 DP(1)/IRQ1/EXT_BG2 DP(2)/TLBISYNC/IRQ2/EXT_DBG2 DP(3)/IRQ3/EXT_BR3/CKSTP_OUT DP(4)/IRQ4/EXT_BG3/CORE_SREST DP(5)/TBEN/IRQ5/EXT_DBG3 DP(6)/CSE(0)/IRQ6 DP(7)/CSE(1)/IRQ7 PSDVAL TA TEA GBL/IRQ1 CI/BADDR29/IRQ2 WT/BADDR30/IRQ3 L2_HIT/IRQ4 CPU_BG/BADDR31/IRQ5 CPU_DBG CPU_BR IRQ0/NMI_OUT IRQ7/INT_OUT/APE PORESET HRESET SRESET RSTCONF QREQ Symbol Min Max Unit VOL — 0.4 V MPC8250 Hardware Specifications, Rev. 1 8 Freescale Semiconductor Electrical and Thermal Characteristics Table 3. DC Electrical Characteristics 1 (continued) Characteristic IOL = 5.3mA CS[0-9] CS(10)/BCTL1 CS(11)/AP(0) BADDR[27–28] ALE BCTL0 PWE(0:7)/PSDDQM(0:7)/PBS(0:7) PSDA10/PGPL0 PSDWE/PGPL1 POE/PSDRAS/PGPL2 PSDCAS/PGPL3 PGTA/PUPMWAIT/PGPL4/PPBS PSDAMUX/PGPL5 LWE[0–3]LSDDQM[0:3]/LBS[0–3]/PCI_CFG[0–3 LSDA10/LGPL0/PCI_MODCKH0 LSDWE/LGPL1/PCI_MODCKH1 LOE/LSDRAS/LGPL2/PCI_MODCKH2 LSDCAS/LGPL3/PCI_MODCKH3 LGTA/LUPMWAIT/LGPL4/LPBS LSDAMUX/LGPL5/PCI_MODCK LWR MODCK1/AP(1)/TC(0)/BNKSEL(0) MODCK2/AP(2)/TC(1)/BNKSEL(1) MODCK3/AP(3)/TC(2)/BNKSEL(2) IOL = 3.2mA L_A14/PAR L_A15/FRAME/SMI L_A16/TRDY L_A17/IRDY/CKSTP_OUT L_A18/STOP L_A19/DEVSEL L_A20/IDSEL L_A21/PERR L_A22/SERR L_A23/REQ0 L_A24/REQ1/HSEJSW L_A25/GNT0 L_A26/GNT1/HSLED L_A27/GNT2/HSENUM L_A28/RST/CORE_SRESET L_A29/INTA L_A30/REQ2 L_A31 LCL_D(0-31)/AD(0-31) LCL_DP(0-3)/C/BE(0-3) PA[0–31] PB[4–31] PC[0–31] PD[4–31] TDO Symbol Min Max Unit VOL — 0.4 V MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 9 Electrical and Thermal Characteristics 1 The default configuration of the CPM pins (PA[0–31], PB[4–31], PC[0–31], PD[4–31]) is input. To prevent excessive DC current, it is recommended to either pull unused pins to GND or VDDH, or to configure them as outputs. 2 The leakage current is measured for nominal VDD, VCCSYN, and VDD. 2.2 Thermal Characteristics Table 4 describes thermal characteristics. Table 4. Thermal Characteristics Value Characteristic Symbol Junction to board 2 Junction to case 3 Air Flow 516 PBGA (VR package) 13 24 Natural convection 10 18 1 m/s 11 16 8 13 θJB 4 8 °C/W — θJC 1.1 6 °C/W — Junction to ambient— single-layer board 1 Junction to ambient— four-layer board Unit 480 TBGA (ZU package) θJA °C/W Natural convection 1 m/s 1 Assumes no thermal vias Thermal resistance between the die and the printed circuit board per JEDEC JESD51-8. Board temperature is measured on the top surface of the board near the package. 3 Thermal resistance between the die and the case top surface as measured by the cold plate method (MIL SPEC-883 Method 1012.1). 2 2.3 Power Considerations The average chip-junction temperature, TJ, in °C can be obtained from the following: TJ = TA + (PD x θJA) (1) where TA = ambient temperature °C θJA = package thermal resistance, junction to ambient, °C/W PD = PINT + PI/O PINT = IDD x VDD Watts (chip internal power) PI/O = power dissipation on input and output pins (determined by user) For most applications PI/O < 0.3 x PINT. If PI/O is neglected, an approximate relationship between PD and TJ is the following: PD = K/(T J + 273° C) (2) Solving equations (1) and (2) for K gives: K = PD x (TA + 273° C) + θJA x PD2 (3) MPC8250 Hardware Specifications, Rev. 1 10 Freescale Semiconductor Electrical and Thermal Characteristics where K is a constant pertaining to the particular part. K can be determined from equation (3) by measuring PD (at equilibrium) for a known TA. Using this value of K, the values of PD and TJ can be obtained by solving equations (1) and (2) iteratively for any value of TA. 2.3.1 Layout Practices Each VCC pin should be provided with a low-impedance path to the board’s power supply. Each ground pin should likewise be provided with a low-impedance path to ground. The power supply pins drive distinct groups of logic on chip. The VCC power supply should be bypassed to ground using at least four 0.1 µF by-pass capacitors located as close as possible to the four sides of the package. The capacitor leads and associated printed circuit traces connecting to chip VCC and ground should be kept to less than half an inch per capacitor lead. A four-layer board is recommended, employing two inner layers as VCC and GND planes. All output pins on the MPC8250 have fast rise and fall times. Printed circuit (PC) trace interconnection length should be minimized in order to minimize overdamped conditions and reflections caused by these fast output switching times. This recommendation particularly applies to the address and data buses. Maximum PC trace lengths of six inches are recommended. Capacitance calculations should consider all device loads as well as parasitic capacitances due to the PC traces. Attention to proper PCB layout and bypassing becomes especially critical in systems with higher capacitive loads because these loads create higher transient currents in the VCC and GND circuits. Pull up all unused inputs or signals that will be inputs during reset. Special care should be taken to minimize the noise levels on the PLL supply pins. Table 5 provides preliminary, estimated power dissipation for various configurations. Note that suitable thermal management is required for conditions above PD = 3W (when the ambient temperature is 70° C or greater) to ensure the junction temperature does not exceed the maximum specified value. Also note that the I/O power should be included when determining whether to use a heat sink. Table 5. Estimated Power Dissipation for Various Configurations 1 PINT(W) 2 Bus (MHz) 1 2 CPM Core CPU Multiplier Multiplier CPM (MHz) CPU (MHz) Vddl 1.8 Volts Vddl 2.0 Volts Nominal Maximum Nominal Maximum 66.66 2 3 133 200 1.2 2 1.8 2.3 66.66 2.5 3 166 200 1.3 2.1 1.9 2.3 66.66 3 4 200 266 — — 2.3 2.9 66.66 3 4.5 200 300 — — 2.4 3.1 83.33 2 3 166 250 — — 2.2 2.8 83.33 2 3 166 250 — — 2.2 2.8 83.33 2.5 3.5 208 291 — — 2.4 3.1 Test temperature = room temperature (25° C) PINT = IDD x V DD Watts MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 11 Electrical and Thermal Characteristics 2.4 AC Electrical Characteristics The following sections include illustrations and tables of clock diagrams, signals, and CPM outputs and inputs for the 66 MHz MPC8250 device. Note that AC timings are based on a 50-pf load. Typical output buffer impedances are shown in Table 6. Table 6. Output Buffer Impedances 1 Output Buffers Typical Impedance (Ω) 60x bus 40 Local bus 40 Memory controller 40 Parallel I/O 46 PCI 25 1 These are typical values at 65° C. The impedance may vary by ±25% with process and temperature. Table 7 lists CPM output characteristics. Table 7. AC Characteristics for CPM Outputs 1 Spec Number Max Delay (ns) Min Delay (ns) Characteristic 1 Max Min 66 MHz 83 MHz 66 MHz 83 MHz sp36a sp37a FCC outputs—internal clock (NMSI) 6 5.5 1 1 sp36b sp37b FCC outputs—external clock (NMSI) 14 12 2 1 sp40 sp41 TDM outputs/SI 25 16 5 4 sp38a sp39a SCC/SMC/SPI/I2C outputs—internal clock (NMSI) 19 16 1 0.5 sp38b sp39b Ex_SCC/SMC/SPI/I2C outputs—external clock (NMSI) 19 16 2 1 sp42 sp43 TIMER/IDMA outputs 14 11 1 0.5 sp42a sp43a PIO outputs 14 11 0.5 0.5 Output specifications are measured from the 50% level of the rising edge of CLKIN to the 50% level of the signal. Timings are measured at the pin. Table 8 lists CPM input characteristics. Table 8. AC Characteristics for CPM Inputs 1 Spec Number Setup (ns) Hold (ns) Characteristic Max Min 66 MHz 83 MHz 66 MHz 83 MHz sp16a sp17a FCC inputs—internal clock (NMSI) 10 8 0 0 sp16b sp17b FCC inputs—external clock (NMSI) 3 2.5 3 2 MPC8250 Hardware Specifications, Rev. 1 12 Freescale Semiconductor Electrical and Thermal Characteristics Table 8. AC Characteristics for CPM Inputs 1 Spec Number Setup (ns) Hold (ns) Characteristic 1 Max Min 66 MHz 83 MHz 66 MHz 83 MHz sp20 sp21 TDM inputs/SI 15 12 12 10 sp18a sp19a SCC/SMC/SPI/I2C inputs—internal clock (NMSI) 20 16 0 0 sp18b sp19b SCC/SMC/SPI/I2C inputs—external clock (NMSI) 5 4 5 4 sp22 sp23 PIO/TIMER/IDMA inputs 10 8 3 3 Input specifications are measured from the 50% level of the signal to the 50% level of the rising edge of CLKIN. Timings are measured at the pin. Note that although the specifications generally reference the rising edge of the clock, the following AC timing diagrams also apply when the falling edge is the active edge. Figure 3 shows the FCC external clock. Serial ClKin sp17b sp16b FCC input signals sp36b/sp37b FCC output signals Note: When GFMR[TCI] = 0 sp36b/sp37b FCC output signals Note: When GFMR[TCI] = 1 Figure 3. FCC External Clock Diagram MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 13 Electrical and Thermal Characteristics Figure 4 shows the FCC internal clock. BRG_OUT sp17a sp16a FCC input signals sp36a/sp37a FCC output signals Note: When GFMR.TCI = 0 sp36a/sp37a FCC output signals Note: When GFMR.TCI = 1 Figure 4. FCC Internal Clock Diagram Figure 5 shows the SCC/SMC/SPI/I2C external clock. Serial CLKin sp18b sp19b SCC/SMC/SPI/I2C input signals (See note.) sp38b/sp39b SCC/SMC/SPI/I2C output signals (See note.) Note: There are four possible timing conditions for SCC and SPI: 1. Input sampled on the rising edge and output driven on the rising edge (shown). 2. Input sampled on the rising edge and output driven on the falling edge. 3. Input sampled on the falling edge and output driven on the falling edge. 4. Input sampled on the falling edge and output driven on the rising edge. Figure 5. SCC/SMC/SPI/I2C External Clock Diagram MPC8250 Hardware Specifications, Rev. 1 14 Freescale Semiconductor Electrical and Thermal Characteristics Figure 6 shows the SCC/SMC/SPI/I2C internal clock. BRG_OUT sp19a sp18a SCC/SMC/SPI/I2C input signals (See note.) sp38a/sp39a SCC/SMC/SPI/I2C output signals (See note.) Note: There are four possible timing conditions for SCC and SPI: 1. Input sampled on the rising edge and output driven on the rising edge (shown). 2. Input sampled on the rising edge and output driven on the falling edge. 3. Input sampled on the falling edge and output driven on the falling edge. 4. Input sampled on the falling edge and output driven on the rising edge. Figure 6. SCC/SMC/SPI/I2C Internal Clock Diagram Figure 7 shows TDM input and output signals. Serial CLKin sp20 sp21 TDM input signals sp40/sp41 TDM output signals Note: There are four possible TDM timing conditions: 1. Input sampled on the rising edge and output driven on the rising edge (shown). 2. Input sampled on the rising edge and output driven on the falling edge. 3. Input sampled on the falling edge and output driven on the falling edge. 4. Input sampled on the falling edge and output driven on the rising edge. Figure 7. TDM Signal Diagram MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 15 Electrical and Thermal Characteristics Figure 8 shows PIO, timer, and DMA signals. Sys clk sp23 sp22 PIO/IDMA/TIMER[TGATE assertion] input signals (See note) sp23 sp22 TIMER input signal [TGATE deassertion] (See note) sp42/sp43 IDMA output signals sp42/sp43 sp42a/sp43a TIMER(sp42/43)/ PIO(sp42a/sp43a) output signals Note: TGATE is asserted on the rising edge of the clock; it is deasserted on the falling edge. Figure 8. PIO, Timer, and DMA Signal Diagram Table 9 lists SIU input characteristics. Table 9. AC Characteristics for SIU Inputs 1 Spec Number Setup (ns) Hold (ns) Characteristic 1 Max Min 66 MHz 83 MHz 66 MHz 83 MHz sp11 sp10 AACK/ARTRY/TA/TS/TEA/DBG/BG/BR 6 5 0.5 0.5 sp12 sp10 Data bus in normal mode 5 4 0.5 0.5 sp13 sp10 Data bus in ECC and PARITY modes 8 6 0.5 0.5 sp14 sp10 DP pins 7 6 0.5 0.5 sp15 sp10 All other pins 5 4 0.5 0.5 Input specifications are measured from the 50% level of the signal to the 50% level of the rising edge of CLKIN. Timings are measured at the pin. MPC8250 Hardware Specifications, Rev. 1 16 Freescale Semiconductor Electrical and Thermal Characteristics Table 10 lists SIU output characteristics. Table 10. AC Characteristics for SIU Outputs 1 Spec Number Max Delay (ns) Min Delay (ns) Characteristic 1 Max Min 66 MHz 83 MHz 66 MHz 83 MHz sp31 sp30 PSDVAL/TEA/TA 7 6 0.5 0.5 sp32 sp30 ADD/ADD_atr./BADDR/CI/GBL/WT 8 6.5 0.5 0.5 sp33a sp30 Data bus 6.5 6.5 0.5 0.5 sp33b sp30 DP 8 7 0.5 0.5 sp34 sp30 Memory controller signals/ALE 6 5 0.5 0.5 sp35 sp30 All other signals 6 5.5 0.5 0.5 Output specifications are measured from the 50% level of the rising edge of CLKIN to the 50% level of the signal. Timings are measured at the pin. NOTE Activating data pipelining (setting BRx[DR] in the memory controller) improves the AC timing. When data pipelining is activated, sp12 can be used for data bus setup even when ECC or PARITY are used. Also, sp33a can be used as the AC specification for DP signals. MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 17 Electrical and Thermal Characteristics Figure 9 shows the interaction of several bus signals. CLKin sp11 sp10 AACK/ARTRY/TA/TS/TEA/ DBG/BG/BR input signals sp12 sp10 sp15 sp10 DATA bus normal mode input signal All other input signals sp30 sp31 PSDVAL/TEA/TA output signals sp32 sp30 sp33a sp30 sp35 sp30 ADD/ADD_atr/BADDR/CI/ GBL/WT output signals DATA bus output signals All other output signals Figure 9. Bus Signals Figure 10 shows signal behavior for all parity modes (including ECC, RMW parity, and standard parity). CLKin sp10 sp13 DATA bus, ECC, and PARITY mode input signals sp10 sp14 DP mode input signal sp33b/sp30 DP mode output signal Figure 10. Parity Mode Diagram MPC8250 Hardware Specifications, Rev. 1 18 Freescale Semiconductor Electrical and Thermal Characteristics Figure 11 shows signal behavior in MEMC mode. CLKin V_CLK sp34/sp30 Memory controller signals Figure 11. MEMC Mode Diagram NOTE Generally, all MPC8250 bus and system output signals are driven from the rising edge of the input clock (CLKin). Memory controller signals, however, trigger on four points within a CLKin cycle. Each cycle is divided by four internal ticks: T1, T2, T3, and T4. T1 always occurs at the rising edge, and T3 at the falling edge, of CLKin. However, the spacing of T2 and T4 depends on the PLL clock ratio selected, as shown in Table 11. Table 11. Tick Spacing for Memory Controller Signals Tick Spacing (T1 Occurs at the Rising Edge of CLKin) PLL Clock Ratio T2 T3 T4 1:2, 1:3, 1:4, 1:5, 1:6 1/4 CLKin 1/2 CLKin 3/4 CLKin 1:2.5 3/10 CLKin 1/2 CLKin 8/10 CLKin 1:3.5 4/14 CLKin 1/2 CLKin 11/14 CLKin Figure 12 is a graphical representation of Table 11. CLKin for 1:2, 1:3, 1:4, 1:5, 1:6 T1 T2 T3 T4 CLKin for 1:2.5 T1 T2 T3 T4 for 1:3.5 CLKin T1 T2 T3 T4 Figure 12. Internal Tick Spacing for Memory Controller Signals MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 19 Clock Configuration Modes NOTE The UPM machine outputs change on the internal tick determined by the memory controller programming; the AC specifications are relative to the internal tick. Note that SDRAM and GPCM machine outputs change on CLKin’s rising edge. 3 Clock Configuration Modes The MPC8250 has three clocking modes: local, PCI host, and PCI agent. The clocking mode is set according to three input pins—PCI_MODE, PCI_CFG[0], PCI_MODCK—as shown in Table 12. Table 12. MPC8250 Clocking Modes Pins PCI_CFG[0] PCI_MODCK 1 PCI_MODE 1 — — 0 0 0 0 0 1 0 1 0 0 1 1 Clocking Mode PCI Clock Frequency Range (MHZ) Reference Local bus — Table 13 and Table 14 50–66 PCI host 25–50 Table 15 and Table 16 50–66 PCI agent 1 25–50 Table 17 and Table 18 Determines PCI clock frequency range. Refer to Section 3.2, “PCI Mode.” In each clocking mode, the configuration of bus, core, PCI, and CPM frequencies is determined by seven bits during the power-up reset—three hardware configuration pins (MODCK[1–3]) and four bits from hardware configuration word[28–31] (MODCK_H). Both the PLLs and the dividers are set according to the selected MPC8250 clock operation mode as described in the following sections. NOTE Clock configurations change only after POR is asserted. 3.1 Local Bus Mode Table 13 shows the eight basic clock configurations for the MPC8250. Another 49 configurations are available by using the configuration pin (RSTCONF) and driving four pins on the data bus. Table 13. Clock Default Configurations MODCK[1–3] Input Clock Frequency CPM Multiplication Factor CPM Frequency Core Multiplication Factor Core Frequency 000 33 MHz 3 100 MHz 4 133 MHz 001 33 MHz 3 100 MHz 5 166 MHz 010 33 MHz 4 133 MHz 4 133 MHz 011 33 MHz 4 133 MHz 5 166 MHz MPC8250 Hardware Specifications, Rev. 1 20 Freescale Semiconductor Clock Configuration Modes Table 13. Clock Default Configurations MODCK[1–3] Input Clock Frequency CPM Multiplication Factor CPM Frequency Core Multiplication Factor Core Frequency 100 66 MHz 2 133 MHz 2.5 166 MHz 101 66 MHz 2 133 MHz 3 200 MHz 110 66 MHz 2.5 166 MHz 2.5 166 MHz 111 66 MHz 2.5 166 MHz 3 200 MHz Table 14 describes all possible clock configurations when using the hard reset configuration sequence. Note also that basic modes are shown in boldface type. The frequencies listed are for the purpose of illustration only. Users must select a mode and input bus frequency so that the resulting configuration does not exceed the frequency rating of the user’s device. Table 14. Clock Configuration Modes 1 MODCK_H–MODCK[1–3] Core Multiplication Input Clock CPM Multiplication CPM Core Factor2 Factor2 Frequency2,3 Frequency2 Frequency2 0001_000 33 MHz 2 66 MHz 4 133 MHz 0001_001 33 MHz 2 66 MHz 5 166 MHz 0001_010 33 MHz 2 66 MHz 6 200 MHz 0001_011 33 MHz 2 66 MHz 7 233 MHz 0001_100 33 MHz 2 66 MHz 8 266 MHz 0001_101 33 MHz 3 100 MHz 4 133 MHz 0001_110 33 MHz 3 100 MHz 5 166 MHz 0001_111 33 MHz 3 100 MHz 6 200 MHz 0010_000 33 MHz 3 100 MHz 7 233 MHz 0010_001 33 MHz 3 100 MHz 8 266 MHz 0010_010 33 MHz 4 133 MHz 4 133 MHz 0010_011 33 MHz 4 133 MHz 5 166 MHz 0010_100 33 MHz 4 133 MHz 6 200 MHz 0010_101 33 MHz 4 133 MHz 7 233 MHz 0010_110 33 MHz 4 133 MHz 8 266 MHz 0010_111 33 MHz 5 166 MHz 4 133 MHz 0011_000 33 MHz 5 166 MHz 5 166 MHz 0011_001 33 MHz 5 166 MHz 6 200 MHz 0011_010 33 MHz 5 166 MHz 7 233 MHz 0011_011 33 MHz 5 166 MHz 8 266 MHz MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 21 Clock Configuration Modes Table 14. Clock Configuration Modes 1 (continued) MODCK_H–MODCK[1–3] Core Multiplication Input Clock CPM Multiplication CPM Core Factor2 Factor2 Frequency2,3 Frequency2 Frequency2 0011_100 33 MHz 6 200 MHz 4 133 MHz 0011_101 33 MHz 6 200 MHz 5 166 MHz 0011_110 33 MHz 6 200 MHz 6 200 MHz 0011_111 33 MHz 6 200 MHz 7 233 MHz 0100_000 33 MHz 6 200 MHz 8 266 MHz 0100_001 Reserved 0100_010 0100_011 0100_100 0100_101 0100_110 0100_111 Reserved 0101_000 0101_001 0101_010 0101_011 0101_100 0101_101 66 MHz 2 133 MHz 2 133 MHz 0101_110 66 MHz 2 133 MHz 2.5 166 MHz 0101_111 66 MHz 2 133 MHz 3 200 MHz 0110_000 66 MHz 2 133 MHz 3.5 233 MHz 0110_001 66 MHz 2 133 MHz 4 266 MHz 0110_010 66 MHz 2 133 MHz 4.5 300 MHz 0110_011 66 MHz 2.5 166 MHz 2 133 MHz 0110_100 66 MHz 2.5 166 MHz 2.5 166 MHz 0110_101 66 MHz 2.5 166 MHz 3 200 MHz 0110_110 66 MHz 2.5 166 MHz 3.5 233 MHz 0110_111 66 MHz 2.5 166 MHz 4 266 MHz 0111_000 66 MHz 2.5 166 MHz 4.5 300 MHz MPC8250 Hardware Specifications, Rev. 1 22 Freescale Semiconductor Clock Configuration Modes Table 14. Clock Configuration Modes 1 (continued) MODCK_H–MODCK[1–3] Core Multiplication Input Clock CPM Multiplication CPM Core Factor2 Factor2 Frequency2,3 Frequency2 Frequency2 0111_001 66 MHz 3 200 MHz 2 133 MHz 0111_010 66 MHz 3 200 MHz 2.5 166 MHz 0111_011 66 MHz 3 200 MHz 3 200 MHz 0111_100 66 MHz 3 200 MHz 3.5 233 MHz 0111_101 66 MHz 3 200 MHz 4 266 MHz 0111_110 66 MHz 3 200 MHz 4.5 300 MHz 0111_111 66 MHz 3.5 233 MHz 2 133 MHz 1000_000 66 MHz 3.5 233 MHz 2.5 166 MHz 1000_001 66 MHz 3.5 233 MHz 3 200 MHz 1000_010 66 MHz 3.5 233 MHz 3.5 233 MHz 1000_011 66 MHz 3.5 233 MHz 4 266 MHz 1000_100 66 MHz 3.5 233 MHz 4.5 300 MHz 1 Because of speed dependencies, not all of the possible configurations in Table 14 are applicable. The user should choose the input clock frequency and the multiplication factors such that the frequency of the CPU is equal to or greater than 133 MHz (150 MHz for extended temperature parts) and the CPM ranges between 66–233 MHz. 3 Input clock frequency is given only for the purpose of reference. User should set MODCK_H–MODCK_L so that the resulting configuration does not exceed the frequency rating of the user’s part. 2 3.2 PCI Mode The PCI mode is selected according to three input pins, as shown in Table 12. In addition, note the following: NOTE: PCI_MODCK In PCI mode only, PCI_MODCK comes from the LGPL5 pin and MODCK_H[0–3] comes from {LGPL0, LGPL1, LGPL2, LGPL3}. NOTE: Tval (Output Hold) The minimum Tval = 2 when PCI_MODCK = 1, and the minimum Tval = 1 when PCI_MODCK = 0. Therefore, designers should use clock configurations that fit this condition to achieve PCI-compliant AC timing. NOTE Clock configurations change only after POR is asserted. MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 23 Clock Configuration Modes 3.2.1 PCI Host Mode The frequencies listed are for the purpose of illustration only. Users must select a mode and input bus frequency so that the resulting configuration does not exceed the frequency rating of the user’s device. Table 15. Clock Default Configurations in PCI Host Mode (MODCK_HI = 0000) Core CPM Input Clock Core PCI Division CPM PCI Multiplication MODCK[1–3]1 Frequency Multiplication Frequency Factor 2 Frequency Frequency2 Factor Factor (Bus) 1 2 000 66 MHz 2 133 MHz 2.5 166 MHz 2/4 66/33 MHz 001 66 MHz 2 133 MHz 3 200 MHz 2/4 66/33 MHz 010 66 MHz 2.5 166 MHz 3 200 MHz 3/6 55/28 MHz 011 66 MHz 2.5 166 MHz 3.5 233 MHz 3/6 55/28 MHz 100 66 MHz 2.5 166 MHz 4 266 MHz 3/6 55/28 MHz 101 66 MHz 3 200 MHz 3 200 MHz 3/6 66/33 MHz 110 66 MHz 3 200 MHz 3.5 233 MHz 3/6 66/33 MHz 111 66 MHz 3 200 MHz 4 266 MHz 3/6 66/33 MHz Assumes MODCK_HI = 0000. The frequency depends on the value of PCI_MODCK. If PCI_MODCK is high (logic ‘1’), the PCI frequency is divided by 2 (33 instead of 66 MHz, etc.) Refer to Table 12. Table 16 describes all possible clock configurations when using the MPC8250’s internal PCI bridge in host mode. Table 16. Clock Configuration Modes in PCI Host Mode MODCK_H – MODCK[1– 3] Input Clock Frequency 1 (Bus) 0001_000 33 MHz 3 100 MHz 5 166 MHz 3/6 33/16 MHz 0001_001 33 MHz 3 100 MHz 6 200 MHz 3/6 33/16 MHz 0001_010 33 MHz 3 100 MHz 7 233 MHz 3/6 33/16 MHz 0001_011 33 MHz 3 100 MHz 8 266 MHz 3/6 33/16 MHz 0010_000 33 MHz 4 133 MHz 5 166 MHz 4/8 33/16 MHz 0010_001 33 MHz 4 133 MHz 6 200 MHz 4/8 33/16 MHz 0010_010 33 MHz 4 133 MHz 7 233 MHz 4/8 33/16 MHz 0010_011 33 MHz 4 133 MHz 8 266 MHz 4/8 33/16 MHz 0011_000 3 33 MHz 5 166 MHz 5 166 MHz 5 33 MHz 0011_0013 33 MHz 5 166 MHz 6 200 MHz 5 33 MHz 3 33 MHz 5 166 MHz 7 233 MHz 5 33 MHz 0011_010 CPM Core CPM Core PCI Division PCI Multiplication Multiplication Frequency Frequency Factor 2 Frequency2 Factor Factor MPC8250 Hardware Specifications, Rev. 1 24 Freescale Semiconductor Clock Configuration Modes Table 16. Clock Configuration Modes in PCI Host Mode (continued) MODCK_H – MODCK[1– 3] Input Clock Frequency 1 (Bus) 0011_0113 33 MHz 5 166 MHz 8 266 MHz 5 33 MHz 0100_0003 33 MHz 6 200 MHz 5 166 MHz 6 33 MHz 0100_0013 33 MHz 6 200 MHz 6 200 MHz 6 33 MHz 0100_0103 33 MHz 6 200 MHz 7 233 MHz 6 33 MHz 0100_0113 33 MHz 6 200 MHz 8 266 MHz 6 33 MHz 0101_000 66 MHz 2 133 MHz 2.5 166 MHz 2/4 66/33 MHz 0101_001 66 MHz 2 133 MHz 3 200 MHz 2/4 66/33 MHz 0101_010 66 MHz 2 133 MHz 3.5 233 MHz 2/4 66/33 MHz 0101_011 66 MHz 2 133 MHz 4 266 MHz 2/4 66/33 MHz 0101_100 66 MHz 2 133 MHz 4.5 300 MHz 2/4 66/33 MHz 0110_000 66 MHz 2.5 166 MHz 2.5 166 MHz 3/6 55/28 MHz 0110_001 66 MHz 2.5 166 MHz 3 200 MHz 3/6 55/28 MHz 0110_010 66 MHz 2.5 166 MHz 3.5 233 MHz 3/6 55/28 MHz 0110_011 66 MHz 2.5 166 MHz 4 266 MHz 3/6 55/28 MHz 0110_100 66 MHz 2.5 166 MHz 4.5 300 MHz 3/6 55/28 MHz 0111_000 66 MHz 3 200 MHz 2.5 166 MHz 3/6 66/33 MHz 0111_001 66 MHz 3 200 MHz 3 200 MHz 3/6 66/33 MHz 0111_010 66 MHz 3 200 MHz 3.5 233 MHz 3/6 66/33 MHz 0111_011 66 MHz 3 200 MHz 4 266 MHz 3/6 66/33 MHz 0111_100 66 MHz 3 200 MHz 4.5 300 MHz 3/6 66/33 MHz 1000_000 66 MHz 3 200 MHz 2.5 166 MHz 4/8 50/25 MHz 1000_001 66 MHz 3 200 MHz 3 200 MHz 4/8 50/25 MHz 1000_010 66 MHz 3 200 MHz 3.5 233 MHz 4/8 50/25 MHz 1000_011 66 MHz 3 200 MHz 4 266 MHz 4/8 50/25 MHz 1000_100 66 MHz 3 200 MHz 4.5 300 MHz 4/8 50/25 MHz 1001_000 66 MHz 3.5 233 MHz 2.5 166 MHz 4/8 58/29 MHz 1001_001 66 MHz 3.5 233 MHz 3 200 MHz 4/8 58/29 MHz Core CPM Core PCI Division CPM PCI Multiplication Multiplication Frequency Factor 2 Frequency Frequency2 Factor Factor MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 25 Clock Configuration Modes Table 16. Clock Configuration Modes in PCI Host Mode (continued) MODCK_H – MODCK[1– 3] Input Clock Frequency 1 (Bus) 1001_010 66 MHz 3.5 233 MHz 3.5 233 MHz 4/8 58/29 MHz 1001_011 66 MHz 3.5 233 MHz 4 266 MHz 4/8 58/29 MHz 1001_100 66 MHz 3.5 233 MHz 4.5 300 MHz 4/8 58/29 MHz 1010_000 100 MHz 2 200 MHz 2 200 MHz 3/6 66/33 MHz 1010_001 100 MHz 2 200 MHz 2.5 250 MHz 3/6 66/33 MHz 1010_010 100 MHz 2 200 MHz 3 300 MHz 3/6 66/33 MHz 1010_011 100 MHz 2 200 MHz 3.5 350 MHz 3/6 66/33 MHz 1010_100 100 MHz 2 200 MHz 4 400 MHz 3/6 66/33 MHz 1011_000 100 MHz 2.5 250 MHz 2 200 MHz 4/8 62/31 MHz 1011_001 100 MHz 2.5 250 MHz 2.5 250 MHz 4/8 62/31MHz 1011_010 100 MHz 2.5 250 MHz 3 300 MHz 4/8 62/31 MHz 1011_011 100 MHz 2.5 250 MHz 3.5 350 MHz 4/8 62/31 MHz 1011_100 100 MHz 2.5 250 MHz 4 400 MHz 4/8 62/31 MHz Core CPM Core PCI Division CPM PCI Multiplication Multiplication Frequency Factor 2 Frequency Frequency2 Factor Factor 1 Input clock frequency is given only for the purpose of reference. User should set MODCK_H–MODCK_L so that the resulting configuration does not exceed the frequency rating of the user’s part. 2 The frequency depends on the value of PCI_MODCK. If PCI_MODCK is high (logic ‘1’), the PCI frequency is divided by 2 (33 instead of 66 MHz, etc.). Refer to Table 12 3 In this mode, PCI_MODCK must be “0”. 3.2.2 PCI Agent Mode The frequencies listed are for the purpose of illustration only. Users must select a mode and input bus frequency so that the resulting configuration does not exceed the frequency rating of the user’s device. Table 17. Clock Default Configurations in PCI Agent Mode (MODCK_HI = 0000) Core Input Clock CPM Core CPM Bus Division 60x Bus Multiplication MODCK[1–3]1 Frequency Multiplication Frequency 3 Frequency Factor Frequency 4 2 2 Factor (PCI) Factor 000 66/33 MHz 2/4 133 MHz 2.5 166 MHz 2 66 MHz 001 66/33 MHz 2/4 133 MHz 3 200 MHz 2 66 MHz 010 66/33 MHz 3/6 200 MHz 3 200 MHz 3 66 MHz 011 66/33 MHz 3/6 200 MHz 4 266 MHz 3 66 MHz MPC8250 Hardware Specifications, Rev. 1 26 Freescale Semiconductor Clock Configuration Modes Table 17. Clock Default Configurations in PCI Agent Mode (MODCK_HI = 0000) Core Input Clock CPM Core CPM Bus Division 60x Bus Multiplication MODCK[1–3]1 Frequency Multiplication 3 Frequency Frequency Factor Frequency 4 Factor (PCI)2 Factor 2 100 66/33 MHz 3/6 200 MHz 3 240 MHz 2.5 80 MHz 101 66/33 MHz 3/6 200 MHz 3.5 280 MHz 2.5 80 MHz 110 66/33 MHz 4/8 266 MHz 3.5 300 MHz 3 88 MHz 111 66/33 MHz 4/8 266 MHz 3 300 MHz 2.5 100 MHz 1 Assumes MODCK_HI = 0000. The frequency depends on the value of PCI_MODCK. If PCI_MODCK is high (logic ‘1’), the PCI frequency is divided by 2 (33 instead of 66 MHz, etc.) and the CPM multiplication factor is multiplied by 2. Refer to Table 12 3 Core frequency = (60x bus frequency)(core multiplication factor) 4 Bus frequency = CPM frequency / bus division factor 2 Table 18 describes all possible clock configurations when using the MPC8250’s internal PCI bridge in agent mode. Table 18. Clock Configuration Modes in PCI Agent Mode MODCK_H Input Clock Core CPM Core – CPM Bus Division 60x Bus Frequency Multiplication Multiplication 3 Frequency MODCK[1– Frequency Factor Frequency 4 (PCI) 1, 2 Factor Factor1 3] 0001_001 66/33 MHz 2/4 133 MHz 5 166 MHz 4 33 MHz 0001_010 66/33 MHz 2/4 133 MHz 6 200 MHz 4 33 MHz 0001_011 66/33 MHz 2/4 133 MHz 7 233 MHz 4 33 MHz 0001_100 66/33 MHz 2/4 133 MHz 8 266 MHz 4 33 MHz 0010_001 50/25 MHz 3/6 150 MHz 3 180 MHz 2.5 60 MHz 0010_010 50/25 MHz 3/6 150 MHz 3.5 210 MHz 2.5 60 MHz 0010_011 50/25 MHz 3/6 150 MHz 4 240 MHz 2.5 60 MHz 0010_100 50/25 MHz 3/6 150 MHz 4.5 270 MHz 2.5 60 MHz 0011_000 66/33 MHz 2/4 133 MHz 2.5 110MHz 3 44 MHz 0011_001 66/33 MHz 2/4 133 MHz 3 132 MHz 3 44 MHz 0011_010 66/33 MHz 2/4 133 MHz 3.5 154 MHz 3 44 MHz 0011_011 66/33 MHz 2/4 133 MHz 4 176MHz 3 44 MHz 0011_100 66/33 MHz 2/4 133 MHz 4.5 198 MHz 3 44 MHz 0100_000 66/33 MHz 3/6 200 MHz 2.5 166 MHz 3 66 MHz 0100_001 66/33 MHz 3/6 200 MHz 3 200 MHz 3 66 MHz 0100_010 66/33 MHz 3/6 200 MHz 3.5 233 MHz 3 66 MHz MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 27 Clock Configuration Modes Table 18. Clock Configuration Modes in PCI Agent Mode (continued) MODCK_H Input Clock Core CPM Core – CPM Bus Division 60x Bus Frequency Multiplication Multiplication Frequency 3 MODCK[1– Frequency Factor Frequency 4 1, 2 1 (PCI) Factor Factor 3] 0100_011 66/33 MHz 3/6 200 MHz 4 266 MHz 3 66 MHz 0100_100 66/33 MHz 3/6 200 MHz 4.5 300 MHz 3 66 MHz 0101_000 5 33 MHz 5 166 MHz 2.5 166 MHz 2.5 66 MHz 0101_0015 33 MHz 5 166 MHz 3 200 MHz 2.5 66 MHz 0101_0105 33 MHz 5 166 MHz 3.5 233 MHz 2.5 66 MHz 0101_0115 33 MHz 5 166 MHz 4 266 MHz 2.5 66 MHz 0101_1005 33 MHz 5 166 MHz 4.5 300 MHz 2.5 66 MHz 0110_000 50/25 MHz 4/8 200 MHz 2.5 166 MHz 3 66 MHz 0110_001 50/25 MHz 4/8 200 MHz 3 200 MHz 3 66 MHz 0110_010 50/25 MHz 4/8 200 MHz 3.5 233 MHz 3 66 MHz 0110_011 50/25 MHz 4/8 200 MHz 4 266 MHz 3 66 MHz 0110_100 50/25 MHz 4/8 200 MHz 4.5 300 MHz 3 66 MHz 0111_000 66/33 MHz 3/6 200 MHz 2 200 MHz 2 100 MHz 0111_001 66/33 MHz 3/6 200 MHz 2.5 250 MHz 2 100 MHz 0111_010 66/33 MHz 3/6 200 MHz 3 300 MHz 2 100 MHz 0111_011 66/33 MHz 3/6 200 MHz 3.5 350 MHz 2 100 MHz 1000_000 66/33 MHz 3/6 200 MHz 2 160 MHz 2.5 80 MHz 1000_001 66/33 MHz 3/6 200 MHz 2.5 200 MHz 2.5 80 MHz 1000_010 66/33 MHz 3/6 200 MHz 3 240 MHz 2.5 80 MHz 1000_011 66/33 MHz 3/6 200 MHz 3.5 280 MHz 2.5 80 MHz 1000_100 66/33 MHz 3/6 200 MHz 4 320 MHz 2.5 80 MHz 1000_101 66/33 MHz 3/6 200 MHz 4.5 360 MHz 2.5 80 MHz 1001_000 66/33 MHz 4/8 266 MHz 2.5 166 MHz 4 66 MHz 1001_001 66/33 MHz 4/8 266 MHz 3 200 MHz 4 66 MHz 1001_010 66/33 MHz 4/8 266 MHz 3.5 233 MHz 4 66 MHz 1001_011 66/33 MHz 4/8 266 MHz 4 266 MHz 4 66 MHz 1001_100 66/33 MHz 4/8 266 MHz 4.5 300 MHz 4 66 MHz MPC8250 Hardware Specifications, Rev. 1 28 Freescale Semiconductor Pinout Table 18. Clock Configuration Modes in PCI Agent Mode (continued) MODCK_H Input Clock Core CPM Core – CPM Bus Division 60x Bus Frequency Multiplication Multiplication Frequency 3 MODCK[1– Frequency Factor Frequency 4 1, 2 1 (PCI) Factor Factor 3] 1 2 3 4 5 4 1010_000 66/33 MHz 4/8 266 MHz 2.5 222 MHz 3 88 MHz 1010_001 66/33 MHz 4/8 266 MHz 3 266 MHz 3 88 MHz 1010_010 66/33 MHz 4/8 266 MHz 3.5 300 MHz 3 88 MHz 1010_011 66/33 MHz 4/8 266 MHz 4 350 MHz 3 88 MHz 1010_100 66/33 MHz 4/8 266 MHz 4.5 400 MHz 3 88 MHz 1011_000 66/33 MHz 4/8 266 MHz 2 212MHz 2.5 106 MHz 1011_001 66/33 MHz 4/8 266 MHz 2.5 265 MHz 2.5 106 MHz 1011_010 66/33 MHz 4/8 266 MHz 3 318 MHz 2.5 106 MHz 1011_011 66/33 MHz 4/8 266 MHz 3.5 371 MHz 2.5 106 MHz 1011_100 66/33 MHz 4/8 266 MHz 4 424 MHz 2.5 106 MHz The frequency depends on the value of PCI_MODCK. If PCI_MODCK is high (logic ‘1’), the PCI frequency is divided by 2 (33 instead of 66 MHz, etc.) and the CPM multiplication factor is multiplied by 2. Refer to Table 12 Input clock frequency is given only for the purpose of reference. User should set MODCK_H–MODCK_L so that the resulting configuration does not exceed the frequency rating of the user’s part. Core frequency = (60x bus frequency)(core multiplication factor) Bus frequency = CPM frequency / bus division factor In this mode, PCI_MODCK must be “1”. Pinout This section provides the pin assignments and pinout list for the MPC8250. 4.1 ZU Package The following figures and table represent the standard 480 TBGA package. For information on the alternate package, refer to Section 4.2, “VR Package” on page 42. MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 29 Pinout 4.1.1 ZU Pin Assignments Figure 13 shows the pinout of the ZU package as viewed from the top surface. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 A A B B C D C D E E F G F G H H J J K L K L M M N N P R P R T U T U V V W Y W Y AA AA AB AB AC AD AC AD AE AE AF AF AG AH AG AH AJ AJ 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 Not to Scale Figure 13. Pinout of the 480 TBGA Package as Viewed from the Top Surface MPC8250 Hardware Specifications, Rev. 1 30 Freescale Semiconductor Pinout Figure 14 shows the side profile of the TBGA package to indicate the direction of the top surface view. View Copper Heat Spreader (Oxidized for Insulation) Etched Cavity Die Attach Polymide Tape Pressure Sensitive Adhesive Die Soldermask Glob-Top Filled Area Glob-Top Dam Copper Traces 1.27 mm Pitch Wire Bonds Figure 14. Side View of the TBGA Package Table 19 shows the pinout list of the ZU package of the MPC8250. Table 20 defines conventions and acronyms used in Table 19. Table 19. MPC8250 ZU Package Pinout List Pin Name Ball BR W5 BG F4 ABB/IRQ2 E2 TS E3 A0 G1 A1 H5 A2 H2 A3 H1 A4 J5 A5 J4 A6 J3 A7 J2 A8 J1 A9 K4 A10 K3 A11 K2 A12 K1 A13 L5 A14 L4 A15 L3 A16 L2 A17 L1 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 31 Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball A18 M5 A19 N5 A20 N4 A21 N3 A22 N2 A23 N1 A24 P4 A25 P3 A26 P2 A27 P1 A28 R1 A29 R3 A30 R5 A31 R4 TT0 F1 TT1 G4 TT2 G3 TT3 G2 TT4 F2 TBST D3 TSIZ0 C1 TSIZ1 E4 TSIZ2 D2 TSIZ3 F5 AACK F3 ARTRY E1 DBG V1 DBB/IRQ3 V2 D0 B20 D1 A18 D2 A16 D3 A13 D4 E12 D5 D9 D6 A6 MPC8250 Hardware Specifications, Rev. 1 32 Freescale Semiconductor Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball D7 B5 D8 A20 D9 E17 D10 B15 D11 B13 D12 A11 D13 E9 D14 B7 D15 B4 D16 D19 D17 D17 D18 D15 D19 C13 D20 B11 D21 A8 D22 A5 D23 C5 D24 C19 D25 C17 D26 C15 D27 D13 D28 C11 D29 B8 D30 A4 D31 E6 D32 E18 D33 B17 D34 A15 D35 A12 D36 D11 D37 C8 D38 E7 D39 A3 D40 D18 D41 A17 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 33 Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball D42 A14 D43 B12 D44 A10 D45 D8 D46 B6 D47 C4 D48 C18 D49 E16 D50 B14 D51 C12 D52 B10 D53 A7 D54 C6 D55 D5 D56 B18 D57 B16 D58 E14 D59 D12 D60 C10 D61 E8 D62 D6 D63 C2 DP0/RSRV/EXT_BR2 B22 IRQ1/DP1/EXT_BG2 A22 IRQ2/DP2/TLBISYNC/EXT_DBG2 E21 IRQ3/DP3/CKSTP_OUT/EXT_BR3 D21 IRQ4/DP4/CORE_SRESET/EXT_BG3 C21 IRQ5/DP5/TBEN/EXT_DBG3 B21 IRQ6/DP6/CSE0 A21 IRQ7/DP7/CSE1 E20 PSDVAL V3 TA C22 TEA V5 GBL/IRQ1 W1 CI/BADDR29/IRQ2 U2 MPC8250 Hardware Specifications, Rev. 1 34 Freescale Semiconductor Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball WT/BADDR30/IRQ3 U3 L2_HIT/IRQ4 Y4 CPU_BG/BADDR31/IRQ5 U4 CPU_DBG R2 CPU_BR Y3 CS0 F25 CS1 C29 CS2 E27 CS3 E28 CS4 F26 CS5 F27 CS6 F28 CS7 G25 CS8 D29 CS9 E29 CS10/BCTL1 F29 CS11/AP0 G28 BADDR27 T5 BADDR28 U1 ALE T2 BCTL0 A27 PWE0/PSDDQM0/PBS0 C25 PWE1/PSDDQM1/PBS1 E24 PWE2/PSDDQM2/PBS2 D24 PWE3/PSDDQM3/PBS3 C24 PWE4/PSDDQM4/PBS4 B26 PWE5/PSDDQM5/PBS5 A26 PWE6/PSDDQM6/PBS6 B25 PWE7/PSDDQM7/PBS7 A25 PSDA10/PGPL0 E23 PSDWE/PGPL1 B24 POE/PSDRAS/PGPL2 A24 PSDCAS/PGPL3 B23 PGTA/PUPMWAIT/PGPL4/PPBS A23 PSDAMUX/PGPL5 D22 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 35 Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball LWE0/LSDDQM0/LBS0/PCI_CFG0 H28 LWE1/LSDDQM1/LBS1/PCI_CFG1 H27 LWE2/LSDDQM2/LBS2/PCI_CFG2 H26 LWE3/LSDDQM3/LBS3/PCI_CFG3 G29 LSDA10/LGPL0/PCI_MODCKH0 D27 LSDWE/LGPL1/PCI_MODCKH1 C28 LOE/LSDRAS/LGPL2/PCI_MODCKH2 E26 LSDCAS/LGPL3/PCI_MODCKH3 D25 LGTA/LUPMWAIT/LGPL4/LPBS C26 LGPL5/LSDAMUX/PCI_MODCK B27 LWR D28 L_A14/PAR N27 L_A15/FRAME/SMI T29 L_A16/TRDY R27 L_A17/IRDY/CKSTP_OUT R26 L_A18/STOP R29 L_A19/DEVSEL R28 L_A20/IDSEL W29 L_A21/PERR P28 L_A22/SERR N26 L_A23/REQ0 AA27 L_A24/REQ1/HSEJSW P29 L_A25/GNT0 AA26 L_A26/GNT1/HSLED N25 L_A27/GNT2/HSENUM AA25 L_A28/RST/CORE_SRESET AB29 L_A29/INTA AB28 L_A30/REQ2 P25 L_A31/DLLOUT AB27 LCL_D0/AD0 H29 LCL_D1/AD1 J29 LCL_D2/AD2 J28 LCL_D3/AD3 J27 LCL_D4/AD4 J26 LCL_D5/AD5 J25 MPC8250 Hardware Specifications, Rev. 1 36 Freescale Semiconductor Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball LCL_D6/AD6 K25 LCL_D7/AD7 L29 LCL_D8/AD8 L27 LCL_D9/AD9 L26 LCL_D10/AD10 L25 LCL_D11/AD11 M29 LCL_D12/AD12 M28 LCL_D13/AD13 M27 LCL_D14/AD14 M26 LCL_D15/AD15 N29 LCL_D16/AD16 T25 LCL_D17/AD17 U27 LCL_D18/AD18 U26 LCL_D19/AD19 U25 LCL_D20/AD20 V29 LCL_D21/AD21 V28 LCL_D22/AD22 V27 LCL_D23/AD23 V26 LCL_D24/AD24 W27 LCL_D25/AD25 W26 LCL_D26/AD26 W25 LCL_D27/AD27 Y29 LCL_D28/AD28 Y28 LCL_D29/AD29 Y25 LCL_D30/AD30 AA29 LCL_D31/AD31 AA28 LCL_DP0/C0/BE0 L28 LCL_DP1/C1/BE1 N28 LCL_DP2/C2/BE2 T28 LCL_DP3/C3/BE3 W28 IRQ0/NMI_OUT T1 IRQ7/INT_OUT/APE D1 TRST AH3 TCK AG5 TMS AJ3 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 37 Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball TDI AE6 TDO AF5 TRIS AB4 PORESET AG6 HRESET AH5 SRESET AF6 QREQ AA3 RSTCONF AJ4 MODCK1/AP1/TC0/BNKSEL0 W2 MODCK2/AP2/TC1/BNKSEL1 W3 MODCK3/AP3/TC2/BNKSEL2 W4 XFC AB2 CLKIN1 AH4 PA0/RESTART1/DREQ3 AC29 1 PA1/REJECT1/DONE3 AC251 PA2/CLK20/DACK3 AE281 PA3/CLK19/DACK4/L1RXD1A2 AG291 PA4/REJECT2/DONE4 AG281 PA5/RESTART2/DREQ4 AG261 PA6 AE241 PA7/SMSYN2 AH251 PA8/SMRXD2 AF231 PA9/SMTXD2 AH231 PA10/MSNUM5 AE221 PA11/MSNUM4 AH221 PA12/MSNUM3 AJ211 PA13/MSNUM2 AH201 PA14/FCC1_RXD3 AG191 PA15/FCC1_RXD2 AF181 PA16/FCC1_RXD1 AF171 PA17/FCC1_RXD0/FCC1_RXD AE161 PA18/FCC1_TXD0/FCC1_TXD AJ161 PA19/FCC1_TXD1 AG151 PA20/FCC1_TXD2 AJ131 PA21/FCC1_TXD3 AE131 MPC8250 Hardware Specifications, Rev. 1 38 Freescale Semiconductor Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball PA22 AF121 PA23 AG111 PA24/MSNUM1 AH91 PA25/MSNUM0 AJ81 PA26/FCC1_MII_RX_ER AH71 PA27/FCC1_MII_RX_DV AF71 PA28/FCC1_MII_TX_EN AD51 PA29/FCC1_MII_TX_ER AF11 PA30/FCC1_MII_CRS/FCC1_RTS AD31 PA31/FCC1_MII_COL AB51 PB4/FCC3_TXD3/L1RSYNCA2/FCC3_RTS AD281 PB5/FCC3_TXD2/L1TSYNCA2/L1GNTA2 AD261 PB6/FCC3_TXD1/L1RXDA2/L1RXD0A2 AD251 PB7/FCC3_TXD0/FCC3_TXD/L1TXDA2/L1TXD0A2 AE261 PB8/FCC3_RXD0/FCC3_RXD/TXD3 AH271 PB9/FCC3_RXD1/L1TXD2A2 AG241 PB10/FCC3_RXD2 AH241 PB11/FCC3_RXD3 AJ241 PB12/FCC3_MII_CRS/TXD2 AG221 PB13/FCC3_MII_COL/L1TXD1A2 AH211 PB14/FCC3_MII_TX_EN/RXD3 AG201 PB15/FCC3_MII_TX_ER/RXD2 AF191 PB16/FCC3_MII_RX_ER/CLK18 AJ181 PB17/FCC3_MII_RX_DV/CLK17 AJ171 PB18/FCC2_RXD3/L1CLKOD2/L1RXD2A2 AE141 PB19/FCC2_RXD2/L1RQD2/L1RXD3A2 AF131 PB20/FCC2_RXD1/L1RSYNCD2/L1TXD1A1 AG121 PB21/FCC2_RXD0/FCC2_RXD/L1TSYNCD2/L1GNTD2 AH111 PB22/FCC2_TXD0/FCC2_TXD/L1RXDD2 AH161 PB23/FCC2_TXD1/L1TXDD2 AE151 PB24/FCC2_TXD2/L1RSYNCC2 AJ91 PB25/FCC2_TXD3/L1TSYNCC2/L1GNTC2 AE91 PB26/FCC2_MII_CRS/L1RXDC2 AJ71 PB27/FCC2_MII_COL/L1TXDC2 AH61 PB28/FCC2_MII_RX_ER/FCC2_RTS/L1TSYNCB2/L1GNTB2/TXD1 AE31 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 39 Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball PB29/L1RSYNCB2/FCC2_MII_TX_EN AE21 PB30/FCC2_MII_RX_DV/L1RXDB2 AC51 PB31/FCC2_MII_TX_ER/L1TXDB2 AC41 PC0/DREQ1/BRGO7/SMSYN2/L1CLKOA2 AB261 PC1/DREQ2/BRGO6/L1RQA2 AD291 PC2/FCC3_CD/DONE2 AE291 PC3/FCC3_CTS/DACK2/CTS4 AE271 PC4/SI2_L1ST4/FCC2_CD AF271 PC5/SI2_L1ST3/FCC2_CTS AF241 PC6/FCC1_CD AJ261 PC7/FCC1_CTS AJ251 PC8/CD4/RENA4/SI2_L1ST2/CTS3 AF221 PC9/CTS4/CLSN4/SI2_L1ST1/L1TSYNCA2/L1GNTA2 AE211 PC10/CD3/RENA3 AF201 PC11/CTS3/CLSN3/L1TXD3A2 AE191 PC12/CD2/RENA2 AE181 PC13/CTS2/CLSN2 AH181 PC14/CD1/RENA1 AH171 PC15/CTS1/CLSN1/SMTXD2 AG161 PC16/CLK16/TIN4 AF151 PC17/CLK15/TIN3/BRGO8 AJ151 PC18/CLK14/TGATE2 AH141 PC19/CLK13/BRGO7/SPICLK AG131 PC20/CLK12/TGATE1 AH121 PC21/CLK11/BRGO6 AJ111 PC22/CLK10/DONE1 AG101 PC23/CLK9/BRGO5/DACK1 AE101 PC24/CLK8/TOUT4 AF91 PC25/CLK7/BRGO4 AE81 PC26/CLK6/TOUT3/TMCLK AJ61 PC27/FCC3_TXD/FCC3_TXD0/CLK5/BRGO3 AG21 PC28/CLK4/TIN1/TOUT2/CTS2/CLSN2 AF31 PC29/CLK3/TIN2/BRGO2/CTS1/CLSN1 AF21 PC30/CLK2/TOUT1 AE11 PC31/CLK1/BRGO1 AD11 MPC8250 Hardware Specifications, Rev. 1 40 Freescale Semiconductor Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball PD4/BRGO8/FCC3_RTS/SMRXD2 AC281 PD5/DONE1 AD271 PD6/DACK1 AF291 PD7/SMSYN1FCC1_TXCLAV2 AF281 PD8/SMRXD1/BRGO5 AG251 PD9/SMTXD1/BRGO3 AH261 PD10/L1CLKOB2/BRGO4 AJ271 PD11/L1RQB2 AJ231 PD12 AG231 PD13 AJ221 PD14/L1CLKOC2/I2CSCL AE201 PD15/L1RQC2/I2CSDA AJ201 PD16/SPIMISO AG181 PD17/BRGO2/SPIMOSI AG171 PD18/SPICLK AF161 PD19/SPISEL/BRGO AH151 PD20/RTS4/TENA4/L1RSYNCA2 AJ141 PD21/TXD4/L1RXD0A2/L1RXDA2 AH131 PD22/RXD4/L1TXD0A2/L1TXDA2 AJ121 PD23/RTS3/TENA3 AE121 PD24/TXD3 AF101 PD25/RXD3 AG91 PD26/RTS2/TENA2 AH81 PD27/TXD2 AG71 PD28/RXD2 AE41 PD29/RTS1/TENA1 AG11 PD30/TXD1 AD41 PD31/RXD1 AD21 VCCSYN AB3 VCCSYN1 B9 GNDSYN AB1 CLKIN2 AE11 SPARE4 2 U5 PCI_MODE 3 AF25 SPARE62 V4 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 41 Pinout Table 19. MPC8250 ZU Package Pinout List (continued) Pin Name Ball THERMAL0 4 AA1 THERMAL1 4 AG4 I/O power AG21, AG14, AG8, AJ1, AJ2, AH1, AH2, AG3, AF4, AE5, AC27, Y27, T27, P27, K26, G27, AE25, AF26, AG27, AH28, AH29, AJ28, AJ29, C7, C14, C16, C20, C23, E10, A28, A29, B28, B29, C27, D26, E25, H3, M4, T3, AA4, A1, A2, B1, B2, C3, D4, E5 Core Power U28, U29, K28, K29, A9, A19, B19, M1, M2, Y1, Y2, AC1, AC2, AH19, AJ19, AH10, AJ10, AJ5 Ground AA5, AF21, AF14, AF8, AE7, AF11, AE17, AE23, AC26, AB25, Y26, V25, T26, R25, P26, M25, K27, H25, G26, D7, D10, D14, D16, D20, D23, C9, E11, E13, E15, E19, E22, B3, G5, H4, K5, M3, P5, T4, Y5, AA2, AC3 1 The default configuration of the CPM pins (PA[0–31], PB[4–31], PC[0–31], PD[4–31]) is input. To prevent excessive DC current, it is recommended to either pull unused pins to GND or VDDH, or to configure them as outputs. 2 Must be pulled down or left floating. 3 If PCI is not desired, this pin should be pulled up or left floating. 4 For information on how to use this pin, refer to MPC8260 PowerQUICC II Thermal Resistor Guide (AN2271/D) available at www.freescale.com. Symbols used in Table 19 are described in Table 20. Table 20. Symbol Legend Symbol 4.2 Meaning OVERBAR Signals with overbars, such as TA, are active low. MII Indicates that a signal is part of the media independent interface. VR Package The following figures and table represent the alternate 516 PBGA package. For information on the standard package for the MPC8250, refer to Section 4.1, “ZU Package” on page 29. MPC8250 Hardware Specifications, Rev. 1 42 Freescale Semiconductor Pinout 4.2.1 VR Pin Assignments Figure 15 shows the pinout of the VR package as viewed from the top surface. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 A A B B C D C D E E F G F G H H J J K L K L M M N N P R P R T U T U V V W Y W Y AA AA AB AB AC AD AC AD AE AE AF AF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Not to Scale Figure 15. Pinout of the 516 PBGA Package (View from Top) MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 43 Pinout Figure 16 shows the side profile of the PBGA package to indicate the direction of the top surface view. Transfer molding compound Die attach Wire bonds Ball bond Plated substrate via DIE Screen-printed solder mask Cu substrate traces BT resin glass epoxy 1 mm pitch Figure 16. Side View of the PBGA Package Table 21 shows the pinout list of the MPC8250VR. Table 20 defines conventions and acronyms used in Table 21. Table 21. MPC8250 VR Package Pinout List Pin Name Ball BR C16 BG D2 ABB/IRQ2 C1 TS D1 A0 D5 A1 E8 A2 C4 A3 B4 A4 A4 A5 D7 A6 D8 A7 C6 A8 B5 A9 B6 A10 C7 A11 C8 A12 A6 A13 D9 A14 F11 A15 B7 A16 B8 A17 C9 A18 A7 MPC8250 Hardware Specifications, Rev. 1 44 Freescale Semiconductor Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball A19 B9 A20 E11 A21 A8 A22 D11 A23 B10 A24 C11 A25 A9 A26 B11 A27 C12 A28 D12 A29 A10 A30 B12 A31 B13 TT0 E7 TT1 B3 TT2 F8 TT3 A3 TT4 C3 TBST F5 TSIZ0 E3 TSIZ1 E2 TSIZ2 E1 TSIZ3 E4 AACK D3 ARTRY C2 DBG A14 DBB/IRQ3 C15 D0 W4 D1 Y1 D2 V1 D3 P4 D4 N3 D5 K5 D6 J4 D7 G1 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 45 Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball D8 AB1 D9 U4 D10 U2 D11 N6 D12 N1 D13 L1 D14 J5 D15 G3 D16 AA2 D17 W1 D18 T3 D19 T1 D20 M2 D21 K2 D22 J1 D23 G4 D24 U5 D25 T5 D26 P5 D27 P3 D28 M3 D29 K3 D30 H2 D31 G5 D32 AA1 D33 V2 D34 U1 D35 P2 D36 M4 D37 K4 D38 H3 D39 F2 D40 Y2 D41 U3 D42 T2 MPC8250 Hardware Specifications, Rev. 1 46 Freescale Semiconductor Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball D43 N2 D44 M5 D45 K1 D46 H4 D47 F1 D48 W2 D49 T4 D50 R3 D51 N4 D52 M1 D53 J2 D54 H5 D55 F3 D56 V3 D57 R5 D58 R2 D59 N5 D60 L2 D61 J3 D62 H1 D63 F4 DP0/RSRV/EXT_BR2 AB3 IRQ1/DP1/EXT_BG2 W5 IRQ2/DP2/TLBISYNC/EXT_DBG2 AC2 IRQ3/DP3/CKSTP_OUT/EXT_BR3 AA3 IRQ4/DP4/CORE_SRESET/EXT_BG3 AD1 IRQ5/DP5/TBEN/EXT_DBG3 AC1 IRQ6/DP6/CSE0 AB2 IRQ7/DP7/CSE1 Y3 PSDVAL D15 TA Y4 TEA D16 GBL/IRQ1 E15 CI/BADDR29/IRQ2 D14 WT/BADDR30/IRQ3 E14 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 47 Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball L2_HIT/IRQ4 A17 CPU_BG/BADDR31/IRQ5 B14 CPU_DBG F13 CPU_BR B17 CS0 AC6 CS1 AD6 CS2 AE6 CS3 AB7 CS4 AF7 CS5 AC7 CS6 AD7 CS7 AF8 CS8 AE8 CS9 AD8 CS10/BCTL1 AC8 CS11/AP0 AB8 BADDR27 C13 BADDR28 A12 ALE D13 BCTL0 AF4 PWE0/PSDDQM0/PBS0 AA5 PWE1/PSDDQM1/PBS1 AE4 PWE2/PSDDQM2/PBS2 AD4 PWE3/PSDDQM3/PBS3 AF3 PWE4/PSDDQM4/PBS4 AB4 PWE5/PSDDQM5/PBS5 AE3 PWE6/PSDDQM6/PBS6 AF2 PWE7/PSDDQM7/PBS7 AD3 PSDA10/PGPL0 AE2 PSDWE/PGPL1 AD2 POE/PSDRAS/PGPL2 AE1 PSDCAS/PGPL3 AC3 PGTA/PUPMWAIT/PGPL4/PPBS W6 PSDAMUX/PGPL5 AA4 LWE0/LSDDQM0/LBS0/PCI_CFG0 AC9 MPC8250 Hardware Specifications, Rev. 1 48 Freescale Semiconductor Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball LWE1/LSDDQM1/LBS1/PCI_CFG1 AD9 LWE2/LSDDQM2/LBS2/PCI_CFG2 AE9 LWE3/LSDDQM3/LBS3/PCI_CFG3 AF9 LSDA10/LGPL0/PCI_MODCKH0 AB6 LSDWE/LGPL1/PCI_MODCKH1 AF5 LOE/LSDRAS/LGPL2/PCI_MODCKH2 AE5 LSDCAS/LGPL3/PCI_MODCKH3 AD5 LGTA/LUPMWAIT/LGPL4/LPBS AC5 LGPL5/LSDAMUX/PCI_MODCK AB5 LWR AF6 L_A14/PAR AE13 L_A15/FRAME/SMI AD15 L_A16/TRDY AF16 L_A17/IRDY/CKSTP_OUT AF15 L_A18/STOP AE15 L_A19/DEVSEL AE14 L_A20/IDSEL AC17 L_A21/PERR AD14 L_A22/SERR AF13 L_A23/REQ0 AE20 L_A24/REQ1/HSEJSW AC14 L_A25/GNT0 AC19 L_A26/GNT1/HSLED AD13 L_A27/GNT2/HSENUM AF21 L_A28/RST/CORE_SRESET AF22 L_A29/INTA AE21 L_A30/REQ2 AB14 L_A31/DLLOUT AD20 LCL_D0/AD0 AB9 LCL_D1/AD1 AB10 LCL_D2/AD2 AC10 LCL_D3/AD3 AD10 LCL_D4/AD4 AE10 LCL_D5/AD5 AF10 LCL_D6/AD6 AF11 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 49 Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball LCL_D7/AD7 AB12 LCL_D8/AD8 AB11 LCL_D9/AD9 AF12 LCL_D10/AD10 AE11 LCL_D11/AD11 AC13 LCL_D12/AD12 AC12 LCL_D13/AD13 AB13 LCL_D14/AD14 AD12 LCL_D15/AD15 AF14 LCL_D16/AD16 AF17 LCL_D17/AD17 AE16 LCL_D18/AD18 AD16 LCL_D19/AD19 AC16 LCL_D20/AD20 AB16 LCL_D21/AD21 AF18 LCL_D22/AD22 AE17 LCL_D23/AD23 AD17 LCL_D24/AD24 AB17 LCL_D25/AD25 AE18 LCL_D26/AD26 AD18 LCL_D27/AD27 AC18 LCL_D28/AD28 AE19 LCL_D29/AD29 AF20 LCL_D30/AD30 AD19 LCL_D31/AD31 AB18 LCL_DP0/C0/BE0 AE12 LCL_DP1/C1/BE1 AA13 LCL_DP2/C2/BE2 AC15 LCL_DP3/C3/BE3 AF19 IRQ0/NMI_OUT A11 IRQ7/INT_OUT/APE E5 TRST F22 TCK A24 TMS C24 TDI A25 MPC8250 Hardware Specifications, Rev. 1 50 Freescale Semiconductor Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball TDO B24 TRIS C19 PORESET B25 HRESET D24 SRESET E23 QREQ D18 RSTCONF E24 MODCK1/AP1/TC0/BNKSEL0 B16 MODCK2/AP2/TC1/BNKSEL1 F16 MODCK3/AP3/TC2/BNKSEL2 A15 XFC A18 CLKIN1 G22 PA0/RESTART1/DREQ3 AC20 1 PA1/REJECT1/DONE3 AC211 PA2/CLK20/DACK3 AF251 PA3/CLK19/DACK4/L1RXD1A2 AE241 PA4/REJECT2/DONE4 AA211 PA5/RESTART2/DREQ4 AD251 PA6 AC241 PA7/SMSYN2 AA221 PA8/SMRXD2 AA231 PA9/SMTXD2 Y261 PA10/MSNUM5 W221 PA11/MSNUM4 W231 PA12/MSNUM3 V261 PA13/MSNUM2 V251 PA14/FCC1_RXD3 T221 PA15/FCC1_RXD2 T251 PA16/FCC1_RXD1 R241 PA17/FCC1_RXD0/FCC1_RXD P221 PA18/FCC1_TXD0/FCC1_TXD N261 PA19/FCC1_TXD1 N231 PA20/FCC1_TXD2 K261 PA21/FCC1_TXD3 L231 PA22 K231 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 51 Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball PA23 H261 PA24/MSNUM1 F251 PA25/MSNUM0 D261 PA26/FCC1_MII_RX_ER D251 PA27/FCC1_MII_RX_DV C251 PA28/FCC1_MII_TX_EN C221 PA29/FCC1_MII_TX_ER B211 PA30/FCC1_MII_CRS/FCC1_RTS A201 PA31/FCC1_MII_COL A191 PB4/FCC3_TXD3/L1RSYNCA2/ FCC3_RTS AD211 PB5/FCC3_TXD2/L1TSYNCA2/ L1GNTA2 AD221 PB6/FCC3_TXD1/L1RXDA2/L1RXD0A2 AC221 PB7/FCC3_TXD0/FCC3_TXD/ L1TXDA2/L1TXD0A2 AE261 PB8/FCC3_RXD0/FCC3_RXD/TXD3 AB231 PB9/FCC3_RXD1/L1TXD2A2 AC261 PB10/FCC3_RXD2 AB261 PB11/FCC3_RXD3 AA251 PB12/FCC3_MII_CRS/TXD2 W261 PB13/FCC3_MII_COL/L1TXD1A2 W251 PB14/FCC3_MII_TX_EN/RXD3 V241 PB15/FCC3_MII_TX_ER/RXD2 U241 PB16/FCC3_MII_RX_ER/CLK18 R221 PB17/FCC3_MII_RX_DV/CLK17 R231 PB18/FCC2_RXD3/L1CLKOD2/ L1RXD2A2 M231 PB19FCC2_RXD2/L1RQD2/L1RXD3A2 L241 PB20/FCC2_RXD1/L1RSYNCD2/ L1TXD1A1 K241 PB21/FCC2_RXD0/FCC2_RXD/ L1TSYNCD2/L1GNTD2 L211 PB22/FCC2_TXD0/FCC2_TXD/ L1RXDD2 P251 PB23/FCC2_TXD1/L1TXDD2 N251 PB24/FCC2_TXD2/L1RSYNCC2 E261 PB25/FCC2_TXD3/L1TSYNCC2/ L1GNTC2 H231 PB26/FCC2_MII_CRS/L1RXDC2 C261 PB27/FCC2_MII_COL/L1TXDC2 B261 PB28/FCC2_MII_RX_ER/FCC2_RTS/ L1TSYNCB2/L1GNTB2/TXD1 A221 PB29/L1RSYNCB2/ FCC2_MII_TX_EN A211 MPC8250 Hardware Specifications, Rev. 1 52 Freescale Semiconductor Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball PB30/FCC2_MII_RX_DV/L1RXDB2 E201 PB31/FCC2_MII_TX_ER/L1TXDB2 C201 PC0/DREQ1/BRGO7/SMSYN2/ L1CLKOA2 AE221 PC1/DREQ2/BRGO6/L1RQA2 AA191 PC2/FCC3_CD/DONE2 AF241 PC3/FCC3_CTS/DACK2/CTS4 AE251 PC4/SI2_L1ST4/FCC2_CD AB221 PC5/SI2_L1ST3/FCC2_CTS AC251 PC6/FCC1_CD AB251 PC7/FCC1_CTS AA241 PC8/CD4/RENA4/SI2_L1ST2/CTS3 Y241 PC9/CTS4/CLSN4/SI2_L1ST1/ L1TSYNCA2/L1GNTA2 U221 PC10/CD3/RENA3 V231 PC11/CTS3/CLSN3/L1TXD3A2 U231 PC12/CD2/RENA2 T261 PC13/CTS2/CLSN2 R261 PC14/CD1/RENA1 P261 PC15/CTS1/CLSN1/SMTXD2 P241 PC16/CLK16/TIN4 M261 PC17/CLK15/TIN3/BRGO8 L261 PC18/CLK14/TGATE2 M241 PC19/CLK13/BRGO7/SPICLK L221 PC20/CLK12/TGATE1 K251 PC21/CLK11/BRGO6 J251 PC22/CLK10/DONE1 G261 PC23/CLK9/BRGO5/DACK1 F261 PC24/CLK8/TOUT4 G241 PC25/CLK7/BRGO4 E251 PC26/CLK6/TOUT3/TMCLK G231 PC27/FCC3_TXD/FCC3_TXD0/CLK5/ BRGO3 B231 PC28/CLK4/TIN1/TOUT2/CTS2/CLSN2 E221 PC29/CLK3/TIN2/BRGO2/CTS1/CLSN1 E211 PC30/CLK2/TOUT1 D211 PC31/CLK1/BRGO1 B201 AF231 PD4/BRGO8/FCC3_RTS/SMRXD2 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 53 Pinout Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball PD5/DONE1 AE231 PD6/DACK1 AB211 PD7/SMSYN1/FCC1_TXCLAV2 AD231 PD8/SMRXD1/BRGO5 AD261 PD9/SMTXD1/BRGO3 Y221 AB241 PD10/L1CLKOB2/BRGO4 Y231 PD11/L1RQB2 PD12 AA261 PD13 W241 PD14/L1CLKOC2/I2CSCL V221 PD15/L1RQC2/I2CSDA U261 PD16/SPIMISO T231 PD17/BRGO2/SPIMOSI R251 PD18/SPICLK P231 PD19/SPISEL/BRGO1 N221 PD20/RTS4/TENA4/L1RSYNCA2 M251 PD21/TXD4/L1RXD0A2/L1RXDA2 L251 PD22/RXD4L1TXD0A2/L1TXDA2 J261 PD23/RTS3/TENA3 K221 PD24/TXD3 G251 PD25/RXD3 H241 PD26/RTS2/TENA2 F241 PD27/TXD2 H221 PD28/RXD2 B221 PD29/RTS1/TENA1 D221 PD30/TXD1 C211 PD31/RXD1 E191 VCCSYN D19 VCCSYN1 K6 GNDSYN B18 CLKIN2 K21 SPARE4 2 C14 PCI_MODE 3 AD24 SPARE62 B15 THERMAL0 4 E17 MPC8250 Hardware Specifications, Rev. 1 54 Freescale Semiconductor Package Description Table 21. MPC8250 VR Package Pinout List (continued) Pin Name Ball THERMAL14 C23 I/O power E6, F6, H6, L5, L6, P6, T6, U6, V5, Y5, AA6, AA8, AA10, AA11, AA14, AA16, AA17, AB19, AB20, W21, U21, T21, P21, N21, M22, J22, H21, F21, F19, F17, E16, F14, E13, E12, F10, E10, E9 Core Power L3, V4, W3, AC11, AD11, AB15, U25, T24, J24, H25, F23, B19, D17, C17, D10, C10 Ground A2, B1, B2, A5, C5, C18, D4, D6, G2, L4, P1, R1, R4, AC4, AE7, AC23, Y25, N24, J23, A23, D23, D20, E18, A13, A16, K10, K11, K12, K13, K14, K15, K16, K17, L10, L11, L12, L13, L14, L15, L16, L17, M10, M11, M12, M13, M14, M15, M16, M17, N10, N11, N12, N13, N14, N15, N16, N17, P10, P11, P12, P13, P14, P15, P16, P17, R10, R11,R12, R13, R14, R15, R16, R17, T10, T11, T12, T13, T14, T15, T16, T17, U10, U11, U12, U13, U14, U15, U16, U17 1 The default configuration of the CPM pins (PA[0–31], PB[4–31], PC[0–31], PD[4–31]) is input. To prevent excessive DC current, it is recommended to either pull unused pins to GND or VDDH, or to configure them as outputs. 2 Must be pulled down or left floating. 3 If PCI is not desired, must be pulled up or left floating. 4 For information on how to use this pin, refer to MPC8260 PowerQUICC II Thermal Resistor Guide (AN2271/D). 5 Package Description The following sections provide the package parameters and mechanical dimensions. 5.1 Package Parameters Package parameters are provided in Table 22. Table 22. Package Parameters Package Devices ZU MPC8250 VR MPC8250VR Outline (mm) Type Interconnects Pitch (mm) Nominal Unmounted Height (mm) 37.5 x 37.5 TBGA 480 1.27 1.55 27 x 27 PBGA 516 1 2.25 MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 55 Package Description 5.2 5.2.1 Mechanical Dimensions ZU Package Dimensions Figure 17 provides the mechanical dimensions and bottom surface nomenclature of the 480 TBGA package. Notes: 1. Dimensions and Tolerancing per ASME Y14.5M-1994. 2. Dimensions in millimeters. 3. Dimension b is measured at the Millimeters Dim Min Max A 1.45 1.65 A1 0.60 0.70 A2 0.85 0.95 A3 0.25 — b 0.65 0.85 D 37.50 BSC D1 35.56 REF e 1.27 BSC E 37.50 BSC E1 35 56 REF Figure 17. Mechanical Dimensions and Bottom Surface Nomenclature—480 TBGA MPC8250 Hardware Specifications, Rev. 1 56 Freescale Semiconductor Package Description 5.2.2 VR Package Dimensions Figure 18 provides the mechanical dimensions and bottom surface nomenclature of the 516 PBGA package. Figure 18. Mechanical Dimensions and Bottom Surface Nomenclature—516 PBGA MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 57 Ordering Information 6 Ordering Information Figure 19 provides an example of the Freescale part numbering nomenclature for the MPC8250. In addition to the processor frequency, the part numbering scheme also consists of a part modifier that indicates any enhancement(s) in the part from the original production design. Each part number also contains a revision code that refers to the die mask revision number and is specified in the part numbering scheme for identification purposes only. For more information, contact your local Freescale sales office. MPC 8250 A C ZU XXX X Product Code Die Revision Level Device Number Process Technology (A = 0.25 micron) Processor Frequency (CPU/CPM/Bus) Temperature Range (Blank = 0 to 105 °C C = -40 to 105 °C) Package ZU = 480 TBGA VR = 516 PBGA Figure 19. Freescale Part Number Key 7 Document Revision History Table 23 provides a revision history for this template. Table 23. Document Revision History Revision 0 Date Substantive Changes 11/2001 Initial version 0.1 2/2002 • Note 2 for Table 4 (changes in italics): “...greater than or equal to 266 MHz, 200 MHz CPM...” • Table 18: core and bus frequency values for the following ranges of MODCK_HMODCK: 0011_000 to 0011_100 and 1011_000 to 1011_1000 • Table 19: footnotes added to pins at AE11, AF25, U5, and V4. 0.2 3/2202 • Table 19: modified notes to pins AE11 and AF25. • Table 19: added note to pins AA1 and AG4 (Therm0 and Therm1). 0.3 3/2002 • Table 19: modified note to pin AF25. 0.4 5/2002 • • • • • 0.5 9/2002 Addition of VR (516 PBGA) package information. Refer to sections 2.2, 4.2, and 5. 0.6 10/2002 Table 21, “VR Pinout”: corrected ball assignment for the following pins—A12–A17, TA, PD5, PC2. 0.7 10/2002 Table 21, “VR Pinout”: Addition of L3 to the Core (VDDx) pin list (page 53) 0.8 11/2002 Table 21, “VR Pinout”: Addition of C18 to the Ground (GND) pin list (page 53) Table 2: Notes 2 and 3 Addition of note on page 8:VDDH and VDD tracking Table 14: Note 3 Table 16: Note 1 Table 18: Note 3 MPC8250 Hardware Specifications, Rev. 1 58 Freescale Semiconductor Document Revision History Table 23. Document Revision History (continued) Revision Date 0.9 8/2003 1 Substantive Changes • • • • • • • • • • • Table 2: Modification to supply voltage ranges reflected in notes 2, 3, and 4 Addition of VCCSYN to “Note: Core, PLL, and I/O Supply Voltages” following Table 2 Addition of Figure 2 Addition of note 1 to Table 3 Table 4: Changes to θJA. Addition of θJB and θJC Table 7, Figure 8: Addition of sp42a/sp43a Figure 3 through Figure 8: Addition of notes or modifications Table 9: Change to sp10 Table 14, Table 16, and Table 18: Removal of PLL bypass mode from clock tables Table 19 and Table 21: Addition of note 1 Addition of SPICLK to PC19 in Table 19 and Table 21. It is documented correctly in the MPC8260 PowerQUICC II™ Family Reference Manual but had previously been omitted from Table 19 and Table 21. 3/29/2005 Document template update MPC8250 Hardware Specifications, Rev. 1 Freescale Semiconductor 59 How to Reach Us: Home Page: www.freescale.com email: [email protected] USA/Europe or Locations Not Listed: Freescale Semiconductor Technical Information Center, CH370 1300 N. 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