Technical Data
M PC8260AEC/D Rev. 0.9 8/2003 MPC826xA (HiP4) Family Hardware Specifications
This document contains detailed information on power considerations, DC/AC electrical characteristics, and AC timing specifications for .25µm (HiP4) devices in the PowerQUICC II™ MPC8260 communications processor family. These devices include the MPC8260, the MPC8255, the MPC8264, the MPC8265, and the MPC8266. Throughout this document, these devices are collectively referred to as the MPC826xA. The following topics are addressed: Topic Section 1.1, “Features” Section 1.2, “Electrical and Thermal Characteristics” Section 1.2.1, “DC Electrical Characteristics” Section 1.2.2, “Thermal Characteristics” Section 1.2.3, “Power Considerations” Section 1.2.4, “AC Electrical Characteristics” Section 1.3, “Clock Configuration Modes” Section 1.3.1, “Local Bus Mode” Section 1.3.2, “PCI Mode” Section 1.4, “Pinout” Section 1.5, “Package Description” Section 1.6, “Ordering Information” Page 2 6 7 11 11 12 20 20 23 29 43 45
NOTE: Document Revision History Changes to this document are summarized in Table 22 on page 45.
Features
Figure 1 shows the block diagram for the MPC826, the HiP4 superset device. Shaded portions indicate functionality that is not available on all devices; refer to the notes.
16 Kbytes I-Cache I-MMU G2 Core System Interface Unit (SIU) 16 Kbytes D-Cache D-MMU Bus Interface Unit 60x-to-PCI Bridge2,3 60x-to-Local Bridge Memory Controller Timers Parallel I/O Baud Rate Generators 32-bit RISC Microcontroller and Program ROM
IMA1,3 Microcode
60x Bus
PCI Bus2,3
32 bits, up to 66 MHz or
Local Bus
32 bits, up to 83 MHz
Communication Processor Module (CPM) Interrupt Controller 32 Kbytes Dual-Port RAM Serial DMAs 4 Virtual IDMAs
Clock Counter System Functions
4
4
MCC1
MCC2
FCC1
FCC2
FCC3
SCC1
SCC2
SCC3
SCC4
SMC1
SMC2
SPI
I2C
TC Layer Hardware1,3
Time Slot Assigner Serial Interface
8 TDM Ports5
3 MII Ports6
2 UTOPIA Ports
Non-Multiplexed I/O
Notes: 1 MPC8264 2 MPC8265 3 MPC8266
4 5
Not on MPC8255 4 TDM ports on the MPC8255 6 2 MII ports on the MPC8255
Figure 1. MPC8266 Block Diagram
1.1
•
Features
Dual-issue integer core — A core version of the EC603e microprocessor — System core microprocessor supporting frequencies of 150–300 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
The major features of the MPC826xA family are as follows:
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MPC826xA (HiP4) Family Hardware Specifications
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Features
• •
•
•
•
— High-performance (6.6–7.65 SPEC95 benchmark at 300 MHz; 1.68 MIPs/MHz without inlining and 1.90 Dhrystones MIPS/MHz with — Supports bus snooping for data cache coherency — Floating-point unit (FPU) Separate power supply for internal logic and for I/O 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 (MPC8265 and MPC8266 only) — 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)
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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 (only FCC1 and FCC2 on the MPC8255): – 10/100-Mbit Ethernet/IEEE 802.3 CDMA/CS interface through media independent interface (MII) – ATM—Full-duplex SAR protocols at 155 Mbps, through UTOPIA interface, AAL5, AAL1, AAL0 protocols, TM 4.0 CBR, VBR, UBR, ABR traffic types, up to 16 K external connections – Transparent – HDLC—Up to T3 rates (clear channel) — Two multichannel controllers (MCCs) (only MCC2 on the MPC8255) – Each MCC handles 128 serial, full-duplex, 64-Kbps data channels.Each 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 eight TDM interfaces (four on the MPC8255)
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MPC826xA (HiP4) Family Hardware Specifications
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Features
Supports two groups of four TDM channels for a total of eight TDMs 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, Motorola 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 Additional features of the MPC826xA family are as follows: • CPM — 32-Kbyte dual-port RAM — Additional MCC host commands — Eight transfer transmission convergence (TC) layers between the TDMs and FCC2 to support inverse multiplexing for ATM capabilities (IMA) (MPC8264 and MPC8266 only) • • CPM multiplexing — FCC2 can also be connected to the TC layer. TC layer (MPC8264 and MPC8266 only) — Each of the 8 TDM channels is routed in hardware to a TC layer block – Protocol-specific overhead bits may be discarded or routed to other controllers by the SI – Performing ATM TC layer functions (according to ITU-T I.432) – Transmit (Tx) updates – Cell HEC generation – Payload scrambling using self synchronizing scrambler (programmable by the user) – Coset generation (programmable by the user) – Cell rate by inserting idle/unassigned cells – Receive (Rx) updates – Cell delineation using bit by bit HEC checking and programmable ALPHA and DELTA parameters for the delineation state machine – Payload descrambling using self synchronizing scrambler (programmable by the user) – Coset removing (programmable by the user) – Filtering idle/unassigned cells (programmable by the user) – Performing HEC error detection and single bit error correction (programmable by user) – Generating loss of cell delineation status/interrupt (LOC/LCD) — Operates with FCC2 (UTOPIA 8) — Provides serial loop back mode — Cell echo mode is provided — Supports both FCC transmit modes – External rate mode—Idle cells are generated by the FCC (microcode) to control data rate.
– – – – –
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Electrical and Thermal Characteristics
– Internal rate mode (sub-rate)—FCC transfers only the data cells using the required data rate. The TC layer generates idle/unassigned cells to maintain the line bit rate. — Supports TC-layer and PMD-WIRE interface (according to the ATM-Forum af-phy-0063.000) — Cell counters for performance monitoring – 16-bit counters count – HEC error cells – HEC single bit error and corrected cells – Idle/unassigned cells filtered – Idle/unassigned cells transmitted – Transmitted ATM cells – Received ATM cells – Maskable interrupt is sent to the host when a counter expires — Overrun (Rx cell FIFO) and underrun (Tx cell FIFO) condition produces maskable interrupt — May be operated at E1 and DS-1 rates. In addition, xDSL applications at bit rates up to 10 Mbps are supported • PCI bridge (MPC8265 and MPC8266 only) — 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 MPC8265) 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
1.2
Electrical and Thermal Characteristics
This section provides AC and DC electrical specifications and thermal characteristics for the MPC826xA.
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Electrical and Thermal Characteristics
1.2.1
DC Electrical Characteristics
This section describes the DC electrical characteristics for the MPC826xA. Table 1 shows the maximum electrical ratings.
Table 1. Absolute Maximum Ratings1
Rating Core supply voltage2 PLL supply I/O supply Input voltage2 Symbol VDD VCCSYN VDDH VIN Tj TSTG Value -0.3 – 2.5 -0.3 – 2.5 -0.3 – 4.0 GND(-0.3) – 3.6 120 (-55) – (+150) Unit V V V V ˚C ˚C
voltage3
voltage4
Junction temperature Storage temperature range
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 Conditions1
Rating Core supply voltage PLL supply voltage I/O supply voltage Input voltage Junction temperature (maximum) Ambient temperature
1 2 3 4 5
Symbol VDD VCCSYN VDDH VIN Tj TA 1.7 – 1.92 1.7 – 1.92
Value 1.7–2.13 1.7–2.13 3.135 – 3.465 GND (-0.3) – 3.465 1055 0–705 1.9 –2.24 1.9–2.24
Unit V V V V ˚C ˚C
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
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
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Electrical and Thermal Characteristics
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
VIL
GND GND – 0.3 V 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 Characteristics1
Characteristic Input high voltage, all inputs except CLKIN Input low voltage CLKIN input high voltage CLKIN input low voltage Input leakage current, VIN = VDDH2 Symbol VIH VIL VIHC VILC IIN IOZ IL IH VOH Min 2.0 GND 2.4 GND — — — — 2.4 Max 3.465 0.8 3.465 0.4 10 10 1 1 — Unit V V V V µA µA µA µA V
Hi-Z (off state) leakage current, VIN = VDDH2 Signal low input current, VIL = 0.8 V Signal high input current, VIH = 2.0 V Output high voltage, IOH = –2 mA except XFC, UTOPIA mode, and open drain pins In UTOPIA mode: IOH = -8.0mA PA[0-31] PB[4-31] PC[0-31] PD[4-31] In UTOPIA mode: IOL = 8.0mA PA[0-31] PB[4-31] PC[0-31] PD[4-31]
VOL
—
0.5
V
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Electrical and Thermal Characteristics Table 3. DC Electrical Characteristics1 (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 VOL Min — Max 0.4 Unit V
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Electrical and Thermal Characteristics Table 3. DC Electrical Characteristics1 (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[0–33 LSDA10/LGPL0/PCI_MODCKH03 LSDWE/LGPL1/PCI_MODCKH13 LOE/LSDRAS/LGPL2/PCI_MODCKH23 LSDCAS/LGPL3/PCI_MODCKH33 LGTA/LUPMWAIT/LGPL4/LPBS LSDAMUX/LGPL5/PCI_MODCK3 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/PAR3 L_A15/FRAME3/SMI L_A16/TRDY3 L_A17/IRDY3/CKSTP_OUT L_A18/STOP3 L_A19/DEVSEL3 L_A20/IDSEL3 L_A21/PERR3 L_A22/SERR3 L_A23/REQ03 L_A24/REQ13/HSEJSW3 L_A25/GNT03 L_A26/GNT13/HSLED3 L_A27/GNT23/HSENUM3 L_A28/RST3/CORE_SRESET L_A29/INTA3 L_A30/REQ23 L_A31 LCL_D(0-31)/AD(0-31)3 LCL_DP(0-3)/C/BE(0-3)3 PA[0–31] PB[4–31] PC[0–31] PD[4–31] TDO
1
Symbol VOL
Min —
Max 0.4
Unit V
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. 3 MPC8265 and MPC8266 only.
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Electrical and Thermal Characteristics
1.2.2
Thermal Characteristics
Table 4. Thermal Characteristics for 480 TBGA Package
Characteristics Symbol Value 131 θJA 101 113 83 °C/W Unit Air Flow NC2 1 m/s NC 1 m/s °C/W °C/W — —
Table 4 describes thermal characteristics.
Junction to ambient
Junction to
board4
θJB θJC
4 1.1
Junction to case5
1 2
Assumes a single layer board with no thermal vias Natural convection 3 Assumes a four layer board 4 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. 5 Thermal resistance between the die and the case top surface as measured by the cold plate method (MIL SPEC-883 Method 1012.1).
1.2.3
Power Considerations
TJ = TA + (PD x θJA) (1)
The average chip-junction temperature, TJ, in °C can be obtained from the following: 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/(TJ + 273° C) Solving equations (1) and (2) for K gives: K = PD x (TA + 273° C) + θJA x PD2 (3) (2)
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.
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Electrical and Thermal Characteristics
1.2.3.1
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 MPC826xA 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 Configurations1
PINT(W)2 Bus (MHz) CPM Core CPU Multiplier Multiplier CPM (MHz) CPU (MHz) Vddl 1.8 Volts Nominal 66.66 66.66 66.66 66.66 83.33 83.33 83.33
1 2
Vddl 2.0 Volts Nominal 1.8 1.9 2.3 2.4 2.2 2.2 2.4 Maximum 2.3 2.3 2.9 3.1 2.8 2.8 3.1
Maximum 2 2.1 — — — — —
2 2.5 3 3 2 2 2.5
3 3 4 4.5 3 3 3.5
133 166 200 200 166 166 208
200 200 266 300 250 250 291
1.2 1.3 — — — — —
Test temperature = room temperature (25˚ C) PINT = IDD x VDD Watts
1.2.4
AC Electrical Characteristics
The following sections include illustrations and tables of clock diagrams, signals, and CPM outputs and inputs for the 66 MHz MPC826xA device. Note that AC timings are based on a 50-pf load. Typical output buffer impedances are shown in Table 6.
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Electrical and Thermal Characteristics Table 6. Output Buffer Impedances1
Output Buffers 60x bus Local bus Memory controller Parallel I/O PCI
1
Typical Impedance (Ω) 40 40 40 46 25
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 Outputs1
Spec Number Characteristic Max sp36a sp36b sp40 sp38a sp38b sp42 sp42a
1
Max Delay (ns)
Min Delay (ns)
Min sp37a sp37b sp41 sp39a sp39b sp43 sp43a FCC outputs—internal clock (NMSI) FCC outputs—external clock (NMSI) TDM outputs/SI SCC/SMC/SPI/I2C outputs—internal clock (NMSI) Ex_SCC/SMC/SPI/I2C outputs—external clock (NMSI) TIMER/IDMA outputs PIO outputs
66 MHz 83 MHz 66 MHz 83 MHz 6 14 25 19 19 14 14 5.5 12 16 16 16 11 11 1 2 5 1 2 1 0.5 1 1 4 0.5 1 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 Inputs1
Spec Number Characteristic Max sp16a sp16b sp20 sp18a sp18b sp22
1
Setup (ns)
Hold (ns)
Min sp17a sp17b sp21 sp19a sp19b sp23 FCC inputs—internal clock (NMSI) FCC inputs—external clock (NMSI) TDM inputs/SI SCC/SMC/SPI/I2C inputs—internal clock (NMSI) SCC/SMC/SPI/I2C inputs—external clock (NMSI) PIO/TIMER/IDMA inputs
66 MHz 83 MHz 66 MHz 83 MHz 10 3 15 20 5 10 8 2.5 12 16 4 8 0 3 12 0 5 3 0 2 10 0 4 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.
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Electrical and Thermal Characteristics
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
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
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Electrical and Thermal Characteristics
Figure 5 shows the SCC/SMC/SPI/I2C external clock.
Serial CLKin sp18b SCC/SMC/SPI/I2C input signals
(See note.)
sp19b
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
Figure 6 shows the SCC/SMC/SPI/I2C internal clock.
BRG_OUT sp18a SCC/SMC/SPI/I2C input signals
(See note.)
sp19a
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
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Electrical and Thermal Characteristics
Figure 7 shows TDM input and output signals.
Serial CLKin sp20 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. sp21
Figure 7. TDM Signal Diagram
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
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Electrical and Thermal Characteristics
Table 10 lists SIU input characteristics.
Table 9. AC Characteristics for SIU Inputs1
Spec Number Characteristic Max sp11 sp12 sp13 sp14 sp15
1
Setup (ns)
Hold (ns)
Min sp10 sp10 sp10 sp10 sp10 AACK/ARTRY/TA/TS/TEA/DBG/BG/BR Data bus in normal mode Data bus in ECC and PARITY modes DP pins All other pins
66 MHz 83 MHz 66 MHz 83 MHz 6 5 8 7 5 5 4 6 6 4 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 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.
Table 10 lists SIU output characteristics.
Table 10. AC Characteristics for SIU Outputs1
Spec Number Characteristic Max sp31 sp32 sp33a sp33b sp34 sp35
1
Max Delay (ns)
Min Delay (ns)
Min sp30 sp30 sp30 sp30 sp30 sp30 PSDVAL/TEA/TA ADD/ADD_atr./BADDR/CI/GBL/WT Data bus DP Memory controller signals/ALE All other signals
66 MHz 83 MHz 66 MHz 83 MHz 7 8 6.5 8 6 6 6 6.5 6.5 7 5 5.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 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. Figure 9 shows the interaction of several bus signals.
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Electrical and Thermal Characteristics
CLKin sp11 AACK/ARTRY/TA/TS/TEA/ DBG/BG/BR input signals sp12 DATA bus normal mode input signal sp15 All other input signals sp31 PSDVAL/TEA/TA output signals sp32 ADD/ADD_atr/BADDR/CI/ GBL/WT output signals sp33a DATA bus output signals sp30 sp30 sp10 sp10 sp10
sp30
sp35
sp30
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
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MPC826xA (HiP4) Family Hardware Specifications
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Electrical and Thermal Characteristics
Figure 11 shows signal behavior in MEMC mode.
CLKin
V_CLK
Memory controller signals
sp34/sp30
Figure 11. MEMC Mode Diagram
NOTE Generally, all MPC826xA 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 1:2, 1:3, 1:4, 1:5, 1:6 1:2.5 1:3.5 1/4 CLKin 3/10 CLKin 4/14 CLKin T3 1/2 CLKin 1/2 CLKin 1/2 CLKin T4 3/4 CLKin 8/10 CLKin 11/14 CLKin
Figure 12 is a graphical representation of Table 11.
CLKin T1 T2 T3 T4 for 1:2, 1:3, 1:4, 1:5, 1:6
CLKin T1 T2 T3 T4
for 1:2.5
CLKin T1 T2 T3 T4
for 1:3.5
Figure 12. Internal Tick Spacing for Memory Controller Signals
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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.
1.3
Clock Configuration Modes
To configure the main PLL multiplication factor and the core, CPM, and 60x bus frequencies, the MODCK[1–3] pins are sampled while HRESET is asserted. Table 12 lists the eight basic configuration modes. Table 13 lists the other modes that are available by using the configuration pin (RSTCONF) and driving four bits from hardware configuration word on the data bus. Note that the MPC8265 and the MPC8266 have two additional clocking modes—PCI agent and PCI host. Refer to Section 1.3.2, “PCI Mode” on page 23 for information. NOTE Clock configurations change only after POR is asserted.
1.3.1
Local Bus Mode
Table 12. Clock Default Modes
Table 12 describes default clock modes for the MPC826xA.
MODCK[1–3] 000 001 010 011 100 101 110 111
Input Clock Frequency 33 MHz 33 MHz 33 MHz 33 MHz 66 MHz 66 MHz 66 MHz 66 MHz
CPM Multiplication Factor 3 3 4 4 2 2 2.5 2.5
CPM Frequency 100 MHz 100 MHz 133 MHz 133 MHz 133 MHz 133 MHz 166 MHz 166 MHz
Core Multiplication Factor 4 5 4 5 2.5 3 2.5 3
Core Frequency 133 MHz 166 MHz 133 MHz 166 MHz 166 MHz 200 MHz 166 MHz 200 MHz
Table 13 describes all possible clock configurations when using the hard reset configuration sequence. Note 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.
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MPC826xA (HiP4) Family Hardware Specifications
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Clock Configuration Modes Table 13. Clock Configuration Modes1
MODCK_H–MODCK[1–3] 0001_000 0001_001 0001_010 0001_011 0001_100 Core Multiplication Input Clock CPM Multiplication CPM Core Factor2 Factor2 Frequency2,3 Frequency2 Frequency2 33 MHz 33 MHz 33 MHz 33 MHz 33 MHz 2 2 2 2 2 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 4 5 6 7 8 133 MHz 166 MHz 200 MHz 233 MHz 266 MHz
0001_101 0001_110 0001_111 0010_000 0010_001
33 MHz 33 MHz 33 MHz 33 MHz 33 MHz
3 3 3 3 3
100 MHz 100 MHz 100 MHz 100 MHz 100 MHz
4 5 6 7 8
133 MHz 166 MHz 200 MHz 233 MHz 266 MHz
0010_010 0010_011 0010_100 0010_101 0010_110
33 MHz 33 MHz 33 MHz 33 MHz 33 MHz
4 4 4 4 4
133 MHz 133 MHz 133 MHz 133 MHz 133 MHz
4 5 6 7 8
133 MHz 166 MHz 200 MHz 233 MHz 266 MHz
0010_111 0011_000 0011_001 0011_010 0011_011
33 MHz 33 MHz 33 MHz 33 MHz 33 MHz
5 5 5 5 5
166 MHz 166 MHz 166 MHz 166 MHz 166 MHz
4 5 6 7 8
133 MHz 166 MHz 200 MHz 233 MHz 266 MHz
0011_100 0011_101 0011_110 0011_111 0100_000
33 MHz 33 MHz 33 MHz 33 MHz 33 MHz
6 6 6 6 6
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
4 5 6 7 8
133 MHz 166 MHz 200 MHz 233 MHz 266 MHz
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Clock Configuration Modes Table 13. Clock Configuration Modes1 (Continued)
MODCK_H–MODCK[1–3] 0100_001 0100_010 0100_011 0100_100 0100_101 0100_110 Core Multiplication Input Clock CPM Multiplication CPM Core Factor2 Factor2 Frequency2,3 Frequency2 Frequency2 Reserved
0100_111 0101_000 0101_001 0101_010 0101_011 0101_100
Reserved
0101_101 0101_110 0101_111 0110_000 0110_001 0110_010
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
2 2 2 2 2 2
133 MHz 133 MHz 133 MHz 133 MHz 133 MHz 133 MHz
2 2.5 3 3.5 4 4.5
133 MHz 166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
0110_011 0110_100 0110_101 0110_110 0110_111 0111_000
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
2.5 2.5 2.5 2.5 2.5 2.5
166 MHz 166 MHz 166 MHz 166 MHz 166 MHz 166 MHz
2 2.5 3 3.5 4 4.5
133 MHz 166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
0111_001 0111_010 0111_011 0111_100 0111_101 0111_110
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
3 3 3 3 3 3
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
2 2.5 3 3.5 4 4.5
133 MHz 166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
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Clock Configuration Modes Table 13. Clock Configuration Modes1 (Continued)
MODCK_H–MODCK[1–3] 0111_111 1000_000 1000_001 1000_010 1000_011 1000_100
1 2
Core Multiplication Input Clock CPM Multiplication CPM Core Factor2 Factor2 Frequency2,3 Frequency2 Frequency2 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 3.5 3.5 3.5 3.5 3.5 3.5 233 MHz 233 MHz 233 MHz 233 MHz 233 MHz 233 MHz 2 2.5 3 3.5 4 4.5 133 MHz 166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
Because of speed dependencies, not all of the possible configurations in Table 13 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 than150 MHz 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.
1.3.2
PCI Mode
The MPC8265 and the MPC8266 have 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 14.
Table 14. MPC8265 and MPC8266 Clocking Modes
Pins Clocking Mode PCI_MODE 1 0 0 0 0 PCI_CFG[0] — 0 0 1 1 PCI_MODCK — 0 1 0 1 PCI agent Local bus PCI host PCI Clock Frequency Range (MHZ) — 50–66 25–50 50–66 25–50
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.
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Clock Configuration Modes
1.3.2.1
PCI Host Mode
The frequencies listed in Table 15 and Table 16 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.
I
Table 15. Clock Default Configurations in PCI Host Mode (MODCK_HI = 0000)
Input Clock CPM Core CPM Core PCI Division PCI Multiplication MODCK[1–3]1 Frequency Multiplication Frequency Frequency Factor2 Frequency2 (Bus) Factor Factor 000 001 010 011 100 101 110 111
1 2
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
2 2 2.5 2.5 2.5 3 3 3
133 MHz 133 MHz 166 MHz 166 MHz 166 MHz 200 MHz 200 MHz 200 MHz
2.5 3 3 3.5 4 3 3.5 4
166 MHz 200 MHz 200 MHz 233 MHz 266 MHz 200 MHz 233 MHz 266 MHz
2/4 2/4 3/6 3/6 3/6 3/6 3/6 3/6
66/33 MHz 66/33 MHz 55/28 MHz 55/28 MHz 55/28 MHz 66/33 MHz 66/33 MHz 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 14.
Table 16 describes all possible clock configurations when using the MPC8265 or the MPC8266’s internal PCI bridge in host mode.
Table 16. Clock Configuration Modes in PCI Host Mode
MODCK_H – MODCK[1–3]
Input Clock Frequency1 (Bus) 33 MHz 33 MHz 33 MHz 33 MHz
CPM Core PCI CPM Core PCI Division Multiplication Multiplication Frequency2 Frequency Frequency Factor2 Factor Factor 3 3 3 3 100 MHz 100 MHz 100 MHz 100 MHz 5 6 7 8 166 MHz 200 MHz 233 MHz 266 MHz 3/6 3/6 3/6 3/6 33/16 MHz 33/16 MHz 33/16 MHz 33/16 MHz
0001_000 0001_001 0001_010 0001_011
0010_000 0010_001 0010_010 0010_011
33 MHz 33 MHz 33 MHz 33 MHz
4 4 4 4
133 MHz 133 MHz 133 MHz 133 MHz
5 6 7 8
166 MHz 200 MHz 233 MHz 266 MHz
4/8 4/8 4/8 4/8
33/16 MHz 33/16 MHz 33/16 MHz 33/16 MHz
0011_0003 0011_0013 0011_0103 0011_0113
33 MHz 33 MHz 33 MHz 33 MHz
5 5 5 5
166 MHz 166 MHz 166 MHz 166 MHz
5 6 7 8
166 MHz 200 MHz 233 MHz 266 MHz
5 5 5 5
33 MHz 33 MHz 33 MHz 33 MHz
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MPC826xA (HiP4) Family Hardware Specifications
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Clock Configuration Modes Table 16. Clock Configuration Modes in PCI Host Mode (Continued)
MODCK_H – MODCK[1–3]
Input Clock Frequency1 (Bus)
CPM Core CPM Core PCI Division PCI Multiplication Multiplication Frequency Frequency Factor2 Frequency2 Factor Factor
0100_0003 0100_0013 0100_0103 0100_0113
33 MHz 33 MHz 33 MHz 33 MHz
6 6 6 6
200 MHz 200 MHz 200 MHz 200 MHz
5 6 7 8
166 MHz 200 MHz 233 MHz 266 MHz
6 6 6 6
33 MHz 33 MHz 33 MHz 33 MHz
0101_000 0101_001 0101_010 0101_011 0101_100
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
2 2 2 2 2
133 MHz 133 MHz 133 MHz 133 MHz 133 MHz
2.5 3 3.5 4 4.5
166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
2/4 2/4 2/4 2/4 2/4
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
0110_000 0110_001 0110_010 0110_011 0110_100
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
2.5 2.5 2.5 2.5 2.5
166 MHz 166 MHz 166 MHz 166 MHz 166 MHz
2.5 3 3.5 4 4.5
166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
3/6 3/6 3/6 3/6 3/6
55/28 MHz 55/28 MHz 55/28 MHz 55/28 MHz 55/28 MHz
0111_000 0111_001 0111_010 0111_011 0111_100
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
3 3 3 3 3
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
2.5 3 3.5 4 4.5
166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
3/6 3/6 3/6 3/6 3/6
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
1000_000 1000_001 1000_010 1000_011 1000_100
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
3 3 3 3 3
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
2.5 3 3.5 4 4.5
166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
4/8 4/8 4/8 4/8 4/8
50/25 MHz 50/25 MHz 50/25 MHz 50/25 MHz 50/25 MHz
1001_000 1001_001 1001_010 1001_011
66 MHz 66 MHz 66 MHz 66 MHz
3.5 3.5 3.5 3.5
233 MHz 233 MHz 233 MHz 233 MHz
2.5 3 3.5 4
166 MHz 200 MHz 233 MHz 266 MHz
4/8 4/8 4/8 4/8
58/29 MHz 58/29 MHz 58/29 MHz 58/29 MHz
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Clock Configuration Modes Table 16. Clock Configuration Modes in PCI Host Mode (Continued)
MODCK_H – MODCK[1–3]
Input Clock Frequency1 (Bus) 66 MHz
CPM Core CPM Core PCI Division PCI Multiplication Multiplication Frequency Frequency Factor2 Frequency2 Factor Factor 3.5 233 MHz 4.5 300 MHz 4/8 58/29 MHz
1001_100
1010_000 1010_001 1010_010 1010_011 1010_100
100 MHz 100 MHz 100 MHz 100 MHz 100 MHz
2 2 2 2 2
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
2 2.5 3 3.5 4
200 MHz 250 MHz 300 MHz 350 MHz 400 MHz
3/6 3/6 3/6 3/6 3/6
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
1011_000 1011_001 1011_010 1011_011 1011_100
1
100 MHz 100 MHz 100 MHz 100 MHz 100 MHz
2.5 2.5 2.5 2.5 2.5
250 MHz 250 MHz 250 MHz 250 MHz 250 MHz
2 2.5 3 3.5 4
200 MHz 250 MHz 300 MHz 350 MHz 400 MHz
4/8 4/8 4/8 4/8 4/8
62/31 MHz 62/31MHz 62/31 MHz 62/31 MHz 62/31 MHz
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 14. 3 In this mode, PCI_MODCK must be “0”.
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MPC826xA (HiP4) Family Hardware Specifications
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Clock Configuration Modes
1.3.2.2
PCI Agent Mode
The frequencies listed in Table 17 and Table 18 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)
Input Clock Core CPM CPM Core Bus Division 60x Bus Multiplication MODCK[1–3]1 Frequency Multiplication Frequency Frequency3 Factor Frequency4 2 2 (PCI) Factor Factor 000 001 010 011 100 101 110 111
1 2
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
2/4 2/4 3/6 3/6 3/6 3/6 4/8 4/8
133 MHz 133 MHz 200 MHz 200 MHz 200 MHz 200 MHz 266 MHz 266 MHz
2.5 3 3 4 3 3.5 3.5 3
166 MHz 200 MHz 200 MHz 266 MHz 240 MHz 280 MHz 300 MHz 300 MHz
2 2 3 3 2.5 2.5 3 2.5
66 MHz 66 MHz 66 MHz 66 MHz 80 MHz 80 MHz 88 MHz 100 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.) and the CPM multiplication factor is multiplied by 2. Refer to Table 14. 3 Core frequency = (60x bus frequency)(core multiplication factor) 4 Bus frequency = CPM frequency / bus division factor
Table 18 describes all possible clock configurations when using the MPC8265 or the MPC8266’s internal PCI bridge in agent mode.
Table 18. Clock Configuration Modes in PCI Agent Mode
CPM Core Bus Division 60x Bus MODCK_H – Frequency Multiplication Multiplication MODCK[1–3] Frequency Frequency3 Factor Frequency4 1,2 1 (PCI) Factor 2/4 2/4 2/4 2/4 Factor 5 6 7 8 0001_001 0001_010 0001_011 0001_100 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 133 MHz 133 MHz 133 MHz 133 MHz 166 MHz 200 MHz 233 MHz 266 MHz 4 4 4 4 33 MHz 33 MHz 33 MHz 33 MHz Input Clock CPM Core
0010_001 0010_010 0010_011 0010_100
50/25 MHz 50/25 MHz 50/25 MHz 50/25 MHz
3/6 3/6 3/6 3/6
150 MHz 150 MHz 150 MHz 150 MHz
3 3.5 4 4.5
180 MHz 210 MHz 240 MHz 270 MHz
2.5 2.5 2.5 2.5
60 MHz 60 MHz 60 MHz 60 MHz
0011_000 0011_001
66/33 MHz 66/33 MHz
2/4 2/4
133 MHz 133 MHz
2.5 3
110MHz 132 MHz
3 3
44 MHz 44 MHz
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Clock Configuration Modes Table 18. Clock Configuration Modes in PCI Agent Mode (Continued)
CPM Core Bus Division 60x Bus MODCK_H – Frequency Multiplication Multiplication MODCK[1–3] Frequency Frequency3 Factor Frequency4 1,2 1 (PCI) Factor 2/4 2/4 2/4 Factor 3.5 4 4.5 0011_010 0011_011 0011_100 66/33 MHz 66/33 MHz 66/33 MHz 133 MHz 133 MHz 133 MHz 154 MHz 176MHz 198 MHz 3 3 3 44 MHz 44 MHz 44 MHz Input Clock CPM Core
0100_000 0100_001 0100_010 0100_011 0100_100
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
3/6 3/6 3/6 3/6 3/6
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
2.5 3 3.5 4 4.5
166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
3 3 3 3 3
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
0101_0005 0101_0015 0101_0105 0101_0115 0101_1005
33 MHz 33 MHz 33 MHz 33 MHz 33 MHz
5 5 5 5 5
166 MHz 166 MHz 166 MHz 166 MHz 166 MHz
2.5 3 3.5 4 4.5
166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
2.5 2.5 2.5 2.5 2.5
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
0110_000 0110_001 0110_010 0110_011 0110_100
50/25 MHz 50/25 MHz 50/25 MHz 50/25 MHz 50/25 MHz
4/8 4/8 4/8 4/8 4/8
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
2.5 3 3.5 4 4.5
166 MHz 200 MHz 233 MHz 266 MHz 300 MHz
3 3 3 3 3
66 MHz 66 MHz 66 MHz 66 MHz 66 MHz
0111_000 0111_001 0111_010 0111_011
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
3/6 3/6 3/6 3/6
200 MHz 200 MHz 200 MHz 200 MHz
2 2.5 3 3.5
200 MHz 250 MHz 300 MHz 350 MHz
2 2 2 2
100 MHz 100 MHz 100 MHz 100 MHz
1000_000 1000_001 1000_010 1000_011 1000_100 1000_101
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
3/6 3/6 3/6 3/6 3/6 3/6
200 MHz 200 MHz 200 MHz 200 MHz 200 MHz 200 MHz
2 2.5 3 3.5 4 4.5
160 MHz 200 MHz 240 MHz 280 MHz 320 MHz 360 MHz
2.5 2.5 2.5 2.5 2.5 2.5
80 MHz 80 MHz 80 MHz 80 MHz 80 MHz 80 MHz
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MPC826xA (HiP4) Family Hardware Specifications
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Pinout Table 18. Clock Configuration Modes in PCI Agent Mode (Continued)
CPM Core Bus Division 60x Bus MODCK_H – Frequency Multiplication Multiplication MODCK[1–3] Frequency Frequency3 Factor Frequency4 1,2 1 (PCI) Factor 4/8 4/8 4/8 4/8 4/8 Factor 2.5 3 3.5 4 4.5 1001_000 1001_001 1001_010 1001_011 1001_100 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 266 MHz 266 MHz 266 MHz 266 MHz 266 MHz 166 MHz 200 MHz 233 MHz 266 MHz 300 MHz 4 4 4 4 4 66 MHz 66 MHz 66 MHz 66 MHz 66 MHz Input Clock CPM Core
1010_000 1010_001 1010_010 1010_011 1010_100
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
4/8 4/8 4/8 4/8 4/8
266 MHz 266 MHz 266 MHz 266 MHz 266 MHz
2.5 3 3.5 4 4.5
222 MHz 266 MHz 300 MHz 350 MHz 400 MHz
3 3 3 3 3
88 MHz 88 MHz 88 MHz 88 MHz 88 MHz
1011_000 1011_001 1011_010 1011_011 1011_100
1
66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz 66/33 MHz
4/8 4/8 4/8 4/8 4/8
266 MHz 266 MHz 266 MHz 266 MHz 266 MHz
2 2.5 3 3.5 4
212MHz 265 MHz 318 MHz 371 MHz 424 MHz
2.5 2.5 2.5 2.5 2.5
106 MHz 106 MHz 106 MHz 106 MHz 106 MHz
2 3 4 5
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 14. 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”.
1.4
1.4.1
Pinout
Pin Assignments
This section provides the pin assignments and pinout list for the MPC826xA.
Figure 13 shows the pinout of the MPC826xA’s 480 TBGA package as viewed from the top surface.
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Pinout
1 A B C D E F G H J K L M N P R T U V W Y AA AB AC AD AE AF AG AH AJ 1
2
3
456
7
8
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 A B C D E F G H J K L M N P R T U V W Y AA AB AC AD AE AF AG AH AJ
2
3
456
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
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) Polymide Tape Die Soldermask Glob-Top Filled Area Glob-Top Dam 1.27 mm Pitch Copper Traces Die Attach Etched Cavity Pressure Sensitive Adhesive
Figure 14. Side View of the TBGA Package
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MPC826xA (HiP4) Family Hardware Specifications
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Pinout
Table 19 shows the pinout list of the MPC826xA. Table 20 defines conventions and acronyms used in Table 19.
Table 19. Pinout List
Pin Name BR BG ABB/IRQ2 TS A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 W5 F4 E2 E3 G1 H5 H2 H1 J5 J4 J3 J2 J1 K4 K3 K2 K1 L5 L4 L3 L2 L1 M5 N5 N4 N3 N2 N1 P4 P3 P2 P1 R1 Ball
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Pinout Table 19. Pinout List (Continued)
Pin Name A29 A30 A31 TT0 TT1 TT2 TT3 TT4 TBST TSIZ0 TSIZ1 TSIZ2 TSIZ3 AACK ARTRY DBG DBB/IRQ3 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 R3 R5 R4 F1 G4 G3 G2 F2 D3 C1 E4 D2 F5 F3 E1 V1 V2 B20 A18 A16 A13 E12 D9 A6 B5 A20 E17 B15 B13 A11 E9 B7 B4 D19 D17 Ball
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MPC826xA (HiP4) Family Hardware Specifications
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Pinout Table 19. Pinout List (Continued)
Pin Name D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 D32 D33 D34 D35 D36 D37 D38 D39 D40 D41 D42 D43 D44 D45 D46 D47 D48 D49 D50 D51 D52 D15 C13 B11 A8 A5 C5 C19 C17 C15 D13 C11 B8 A4 E6 E18 B17 A15 A12 D11 C8 E7 A3 D18 A17 A14 B12 A10 D8 B6 C4 C18 E16 B14 C12 B10 Ball
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Pinout Table 19. Pinout List (Continued)
Pin Name D53 D54 D55 D56 D57 D58 D59 D60 D61 D62 D63 DP0/RSRV/EXT_BR2 IRQ1/DP1/EXT_BG2 IRQ2/DP2/TLBISYNC/EXT_DBG2 IRQ3/DP3/CKSTP_OUT/EXT_BR3 IRQ4/DP4/CORE_SRESET/EXT_BG3 IRQ5/DP5/TBEN/EXT_DBG3 IRQ6/DP6/CSE0 IRQ7/DP7/CSE1 PSDVAL TA TEA GBL/IRQ1 CI/BADDR29/IRQ2 WT/BADDR30/IRQ3 L2_HIT/IRQ4 CPU_BG/BADDR31/IRQ5 CPU_DBG CPU_BR CS0 CS1 CS2 CS3 CS4 CS5 A7 C6 D5 B18 B16 E14 D12 C10 E8 D6 C2 B22 A22 E21 D21 C21 B21 A21 E20 V3 C22 V5 W1 U2 U3 Y4 U4 R2 Y3 F25 C29 E27 E28 F26 F27 Ball
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MPC826xA (HiP4) Family Hardware Specifications
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Pinout Table 19. Pinout List (Continued)
Pin Name CS6 CS7 CS8 CS9 CS10/BCTL1 CS11/AP0 BADDR27 BADDR28 ALE BCTL0 PWE0/PSDDQM0/PBS0 PWE1/PSDDQM1/PBS1 PWE2/PSDDQM2/PBS2 PWE3/PSDDQM3/PBS3 PWE4/PSDDQM4/PBS4 PWE5/PSDDQM5/PBS5 PWE6/PSDDQM6/PBS6 PWE7/PSDDQM7/PBS7 PSDA10/PGPL0 PSDWE/PGPL1 POE/PSDRAS/PGPL2 PSDCAS/PGPL3 PGTA/PUPMWAIT/PGPL4/PPBS PSDAMUX/PGPL5 LWE0/LSDDQM0/LBS0/PCI_CFG01 LWE1/LSDDQM1/LBS1/PCI_CFG11 LWE2/LSDDQM2/LBS2/PCI_CFG21 LWE3/LSDDQM3/LBS3/PCI_CFG31 LSDA10/LGPL0/PCI_MODCKH01 LSDWE/LGPL1/PCI_MODCKH11 LOE/LSDRAS/LGPL2/PCI_MODCKH21 LSDCAS/LGPL3/PCI_MODCKH31 LGTA/LUPMWAIT/LGPL4/LPBS LGPL5/LSDAMUX/PCI_MODCK1 LWR F28 G25 D29 E29 F29 G28 T5 U1 T2 A27 C25 E24 D24 C24 B26 A26 B25 A25 E23 B24 A24 B23 A23 D22 H28 H27 H26 G29 D27 C28 E26 D25 C26 B27 D28 Ball
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MPC826xA (HiP4) Family Hardware Specifications
35
Pinout Table 19. Pinout List (Continued)
Pin Name L_A14/PAR1 L_A15/FRAME1/SMI L_A16/TRDY1 L_A17/IRDY1/CKSTP_OUT L_A18/STOP1 L_A19/DEVSEL1 L_A20/IDSEL1 L_A21/PERR1 L_A22/SERR1 L_A23/REQ01 L_A24/REQ11/HSEJSW1 L_A25/GNT01 L_A26/GNT11/HSLED1 L_A27/GNT21/HSENUM1 L_A28/RST1/CORE_SRESET L_A29/INTA1 L_A30/REQ21 L_A31/DLLOUT1 LCL_D0/AD01 LCL_D1/AD11 LCL_D2/AD21 LCL_D3/AD31 LCL_D4/AD41 LCL_D5/AD51 LCL_D6/AD61 LCL_D7/AD71 LCL_D8/AD81 LCL_D9/AD91 LCL_D10/AD101 LCL_D11/AD111 LCL_D12/AD121 LCL_D13/AD131 LCL_D14/AD141 LCL_D15/AD151 LCL_D16/AD161 N27 T29 R27 R26 R29 R28 W29 P28 N26 AA27 P29 AA26 N25 AA25 AB29 AB28 P25 AB27 H29 J29 J28 J27 J26 J25 K25 L29 L27 L26 L25 M29 M28 M27 M26 N29 T25 Ball
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MPC826xA (HiP4) Family Hardware Specifications
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Pinout Table 19. Pinout List (Continued)
Pin Name LCL_D17/AD171 LCL_D18/AD181 LCL_D19/AD191 LCL_D20/AD201 LCL_D21/AD211 LCL_D22/AD221 LCL_D23/AD231 LCL_D24/AD241 LCL_D25/AD251 LCL_D26/AD261 LCL_D27/AD271 LCL_D28/AD281 LCL_D29/AD291 LCL_D30/AD301 LCL_D31/AD311 LCL_DP0/C01/BE01 LCL_DP1/C11/BE11 LCL_DP2/C21/BE21 LCL_DP3/C31/BE31 IRQ0/NMI_OUT IRQ7/INT_OUT/APE TRST TCK TMS TDI TDO TRIS PORESET HRESET SRESET QREQ RSTCONF MODCK1/AP1/TC0/BNKSEL0 MODCK2/AP2/TC1/BNKSEL1 MODCK3/AP3/TC2/BNKSEL2 U27 U26 U25 V29 V28 V27 V26 W27 W26 W25 Y29 Y28 Y25 AA29 AA28 L28 N28 T28 W28 T1 D1 AH3 AG5 AJ3 AE6 AF5 AB4 AG6 AH5 AF6 AA3 AJ4 W2 W3 W4 Ball
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37
Pinout Table 19. Pinout List (Continued)
Pin Name XFC CLKIN1 PA0/RESTART1/DREQ3/FCC2_UTM_TXADDR2 PA1/REJECT1/FCC2_UTM_TXADDR1/DONE3 PA2/CLK20/FCC2_UTM_TXADDR0/DACK3 PA3/CLK19/FCC2_UTM_RXADDR0/DACK4/L1RXD1A2 PA4/REJECT2/FCC2_UTM_RXADDR1/DONE4 PA5/RESTART2/DREQ4/FCC2_UTM_RXADDR2 PA6/L1RSYNCA1 PA7/SMSYN2/L1TSYNCA1/L1GNTA1 PA8/SMRXD2/L1RXD0A1/L1RXDA1 PA9/SMTXD2/L1TXD0A1 PA10/FCC1_UT8_RXD0/FCC1_UT16_RXD8/MSNUM5 PA11/FCC1_UT8_RXD1/FCC1_UT16_RXD9/MSNUM4 PA12/FCC1_UT8_RXD2/FCC1_UT16_RXD10/MSNUM3 PA13/FCC1_UT8_RXD3/FCC1_UT16_RXD11/MSNUM2 PA14/FCC1_UT8_RXD4/FCC1_UT16_RXD12/FCC1_RXD3 PA15/FCC1_UT8_RXD5/FCC1_UT16_RXD13/FCC1_RXD2 PA16/FCC1_UT8_RXD6/FCC1_UT16_RXD14/FCC1_RXD1 PA17/FCC1_UT8_RXD7/FCC1_UT16_RXD15/FCC1_RXD0/FCC1_RXD PA18/FCC1_UT8_TXD7/FCC1_UT16_TXD15/FCC1_TXD0/FCC1_TXD PA19/FCC1_UT8_TXD6/FCC1_UT16_TXD14/FCC1_TXD1 PA20/FCC1_UT8_TXD5/FCC1_UT16_TXD13/FCC1_TXD2 PA21/FCC1_UT8_TXD4/FCC1_UT16_TXD12/FCC1_TXD3 PA22/FCC1_UT8_TXD3/FCC1_UT16_TXD11 PA23/FCC1_UT8_TXD2/FCC1_UT16_TXD10 PA24/FCC1_UT8_TXD1/FCC1_UT16_TXD9/MSNUM1 PA25/FCC1_UT8_TXD0/FCC1_UT16_TXD8/MSNUM0 PA26/FCC1_UTM_RXCLAV/FCC1_UTS_RXCLAV/FCC1_MII_RX_ER PA27/FCC1_UT_RXSOC/FCC1_MII_RX_DV PA28/FCC1_UTM_RXENB/FCC1_UTS_RXENB/FCC1_MII_TX_EN PA29/FCC1_UT_TXSOC/FCC1_MII_TX_ER PA30/FCC1_UTM_TXCLAV/FCC1_UTS_TXCLAV/FCC1_MII_CRS/ FCC1_RTS PA31/FCC1_UTM_TXENB/FCC1_UTS_TXENB/FCC1_MII_COL PB4/FCC3_TXD3/FCC2_UT8_RXD0/L1RSYNCA2/FCC3_RTS AB2 AH4 AC292 AC252 AE282 AG292 AG282 AG262 AE242 AH252 AF232 AH232 AE222 AH222 AJ212 AH202 AG192 AF182 AF172 AE162 AJ162 AG152 AJ132 AE132 AF122 AG112 AH92 AJ82 AH72 AF72 AD52 AF12 AD32 AB52 AD282 Ball
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MPC826xA (HiP4) Family Hardware Specifications
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Pinout Table 19. Pinout List (Continued)
Pin Name PB5/FCC3_TXD2/FCC2_UT8_RXD1/L1TSYNCA2/L1GNTA2 PB6/FCC3_TXD1/FCC2_UT8_RXD2/L1RXDA2/L1RXD0A2 PB7/FCC3_TXD0/FCC3_TXD/FCC2_UT8_RXD3/L1TXDA2/L1TXD0A2 PB8/FCC2_UT8_TXD3/FCC3_RXD0/FCC3_RXD/TXD3/L1RSYNCD1 PB9/FCC2_UT8_TXD2/FCC3_RXD1/L1TXD2A2/L1TSYNCD1/L1GNTD1 PB10/FCC2_UT8_TXD1/FCC3_RXD2/L1RXDD1 PB11/FCC3_RXD3/FCC2_UT8_TXD0/L1TXDD1 PB12/FCC3_MII_CRS/L1CLKOB1/L1RSYNCC1/TXD2 PB13/FCC3_MII_COL/L1RQB1/L1TSYNCC1/L1GNTC1/L1TXD1A2 PB14/FCC3_MII_TX_EN/RXD3/L1RXDC1 PB15/FCC3_MII_TX_ER/RXD2/L1TXDC1 PB16/FCC3_MII_RX_ER/L1CLKOA1/CLK18 PB17/FCC3_MII_RX_DV/L1RQA1/CLK17 PB18/FCC2_UT8_RXD4/FCC2_RXD3/L1CLKOD2/L1RXD2A2 PB19/FCC2_UT8_RXD5/FCC2_RXD2/L1RQD2/L1RXD3A2 PB20/FCC2_UT8_RXD6/FCC2_RXD1/L1RSYNCD2/L1TXD1A1 AD262 AD252 AE262 AH272 AG242 AH242 AJ242 AG222 AH212 AG202 AF192 AJ182 AJ172 AE142 AF132 AG122 Ball
PB21/FCC2_UT8_RXD7/FCC2_RXD0/FCC2_RXD/L1TSYNCD2/L1GNTD2/ AH112 L1TXD2A1 PB22/FCC2_UT8_TXD7/FCC2_TXD0/FCC2_TXD/L1RXD1A1/L1RXDD2 PB23/FCC2_UT8_TXD6/FCC2_TXD1/L1RXD2A1/L1TXDD2 PB24/FCC2_UT8_TXD5/FCC2_TXD2/L1RXD3A1/L1RSYNCC2 PB25/FCC2_UT8_TXD4/FCC2_TXD3/L1TSYNCC2/L1GNTC2/L1TXD3A1 PB26/FCC2_MII_CRS/FCC2_UT8_TXD1/L1RXDC2 PB27/FCC2_MII_COL/FCC2_UT8_TXD0/L1TXDC2 PB28/FCC2_MII_RX_ER/FCC2_RTS/L1TSYNCB2/L1GNTB2/TXD1 PB29/FCC2_UTM_RXCLAV/FCC2_UTS_RXCLAV/L1RSYNCB2/ FCC2_MII_TX_EN PB30/FCC2_MII_RX_DV/FCC2_UT_TXSOC/L1RXDB2 PB31/FCC2_MII_TX_ER/FCC2_UT_RXSOC/L1TXDB2 PC0/DREQ1/BRGO7/SMSYN2/L1CLKOA2 PC1/DREQ2/BRGO6/L1RQA2 PC2/FCC3_CD/FCC2_UT8_TXD3/DONE2 PC3/FCC3_CTS/FCC2_UT8_TXD2/DACK2/CTS4 PC4/FCC2_UTM_RXENB/FCC2_UTS_RXENB/SI2_L1ST4/FCC2_CD PC5/FCC2_UTM_TXCLAV/FCC2_UTS_TXCLAV/SI2_L1ST3/FCC2_CTS AH162 AE152 AJ92 AE92 AJ72 AH62 AE32 AE22 AC52 AC42 AB262 AD292 AE292 AE272 AF272 AF242
PC6/FCC1_CD/L1CLKOC1/FCC1_UTM_RXADDR2/FCC1_UTS_RXADDR/ AJ262 FCC1_UTM_RXCLAV1
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39
Pinout Table 19. Pinout List (Continued)
Pin Name PC7/FCC1_CTS/L1RQC1/FCC1_UTM_TXADDR2/FCC1_UTS_TXADDR2/ FCC1_UTM_TXCLAV1 PC8/CD4/RENA4/FCC1_UT16_TXD0/SI2_L1ST2/CTS3 PC9/CTS4/CLSN4/FCC1_UT16_TXD1/SI2_L1ST1/L1TSYNCA2/L1GNTA2 PC10/CD3/RENA3/FCC1_UT16_TXD2/SI1_L1ST4/FCC2_UT8_RXD3 PC11/CTS3/CLSN3/L1CLKOD1/L1TXD3A2/FCC2_UT8_RXD2 PC12/CD2/RENA2/SI1_L1ST3/FCC1_UTM_RXADDR1/ FCC1_UTS_RXADDR1 PC13/CTS2/CLSN2/L1RQD1/FCC1_UTM_TXADDR1/ FCC1_UTS_TXADDR1 PC14/CD1/RENA1/FCC1_UTM_RXADDR0/FCC1_UTS_RXADDR0 PC15/CTS1/CLSN1/SMTXD2/FCC1_UTM_TXADDR0/ FCC1_UTS_TXADDR0 PC16/CLK16/TIN4 PC17/CLK15/TIN3/BRGO8 PC18/CLK14/TGATE2 PC19/CLK13/BRGO7/SPICLK PC20/CLK12/TGATE1 PC21/CLK11/BRGO6 PC22/CLK10/DONE1 PC23/CLK9/BRGO5/DACK1 PC24/FCC2_UT8_TXD3/CLK8/TOUT4 PC25/FCC2_UT8_TXD2/CLK7/BRGO4 PC26/CLK6/TOUT3/TMCLK PC27/FCC3_TXD/FCC3_TXD0/CLK5/BRGO3 PC28/CLK4/TIN1/TOUT2/CTS2/CLSN2 PC29/CLK3/TIN2/BRGO2/CTS1/CLSN1 PC30/FCC2_UT8_TXD3/CLK2/TOUT1 PC31/CLK1/BRGO1 PD4/BRGO8/L1TSYNCD1/L1GNTD1/FCC3_RTS/SMRXD2 PD5/FCC1_UT16_TXD3/DONE1 PD6/FCC1_UT16_TXD4/DACK1 PD7/SMSYN1/FCC1_UTM_TXADDR3/FCC1_UTS_TXADDR3/ FCC2_UTM_TXADDR4/FCC1_TXCLAV2 PD8/SMRXD1/FCC2_UT_TXPRTY/BRGO5 PD9/SMTXD1/FCC2_UT_RXPRTY/BRGO3 PD10/L1CLKOB2/FCC2_UT8_RXD1/L1RSYNCB1/BRGO4 AJ252 AF222 AE212 AF202 AE192 AE182 AH182 AH172 AG162 AF152 AJ152 AH142 AG132 AH122 AJ112 AG102 AE102 AF92 AE82 AJ62 AG22 AF32 AF22 AE12 AD12 AC282 AD272 AF292 AF282 AG252 AH262 AJ272 Ball
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MPC826xA (HiP4) Family Hardware Specifications
MOTOROLA
Pinout Table 19. Pinout List (Continued)
Pin Name PD11/L1RQB2/FCC2_UT8_RXD0/L1TSYNCB1/L1GNTB1 PD12/SI1_L1ST2/L1RXDB1 PD13/SI1_L1ST1/L1TXDB1 PD14/FCC1_UT16_RXD0/L1CLKOC2/I2CSCL PD15/FCC1_UT16_RXD1/L1RQC2/I2CSDA PD16/FCC1_UT_TXPRTY/L1TSYNCC1/L1GNTC1/SPIMISO PD17/FCC1_UT_RXPRTY/BRGO2/SPIMOSI PD18/FCC1_UTM_RXADDR4/FCC1_UTS_RXADDR4/ FCC1_UTM_RXCLAV3/FCC2_UTM_RXADDR3/SPICLK PD19/FCC1_UTM_TXADDR4/FCC1_UTS_TXADDR4/ FCC1_UTM_TXCLAV3/FCC2_UTM_TXADDR3/SPISEL/BRGO1 PD20/RTS4/TENA4/FCC1_UT16_RXD2/L1RSYNCA2 PD21/TXD4/FCC1_UT16_RXD3/L1RXD0A2/L1RXDA2 PD22/RXD4/FCC1_UT16_TXD5/L1TXD0A2/L1TXDA2 PD23/RTS3/TENA3/FCC1_UT16_RXD4/L1RSYNCD1 PD24/TXD3/FCC1_UT16_RXD5/L1RXDD1 PD25/RXD3/FCC1_UT16_TXD6/L1TXDD1 PD26/RTS2/TENA2/FCC1_UT16_RXD6/L1RSYNCC1 PD27/TXD2/FCC1_UT16_RXD7/L1RXDC1 PD28/RXD2/FCC1_UT16_TXD7/L1TXDC1 PD29/RTS1/TENA1/FCC1_UTM_RXADDR3/FCC1_UTS_RXADDR3/ FCC1_UTM_RXCLAV2/FCC2_UTM_RXADDR4 PD30/FCC2_UTM_TXENB/FCC2_UTS_TXENB/TXD1 PD31/RXD1 VCCSYN VCCSYN1 GNDSYN CLKIN21,3 SPARE44 PCI_MODE1,5 SPARE64 THERMAL06 THERMAL16 AJ232 AG232 AJ222 AE202 AJ202 AG182 AG172 AF162 AH152 AJ142 AH132 AJ122 AE122 AF102 AG92 AH82 AG72 AE42 AG12 AD42 AD22 AB3 B9 AB1 AE11 U5 AF25 V4 AA1 AG4 Ball
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41
Pinout Table 19. Pinout List (Continued)
Pin Name I/O power Ball 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 U28, U29, K28, K29, A9, A19, B19, M1, M2, Y1, Y2, AC1, AC2, AH19, AJ19, AH10, AJ10, AJ5 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
Core Power
Ground
1 2 3 4 5
6
MPC8265 and MPC8266 only. 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. On PCI devices (MPC8265 and MPC8266) this pin should be used as CLKIN2. On non-PCI devices (MPC8260A and MPC8264) this is a spare pin that must be pulled down or left floating. Must be pulled down or left floating. On PCI devices (MPC8265 and MPC8266) this pin should be asserted if the PCI function is desired or pulled up or left floating if PCI is not desired. On non-PCI devices (MPC8260A and MPC8264) this is a spare pin that must be pulled up or left floating. For information on how to use this pin, refer to MPC8260 PowerQUICC II Thermal Resistor Guide available at www.motorola.com/semiconductors.
Symbols used in Table 19 are described in Table 20.
Table 20. Symbol Legend
Symbol OVERBAR UTM UTS UT8 UT16 MII Meaning Signals with overbars, such as TA, are active low. Indicates that a signal is part of the UTOPIA master interface. Indicates that a signal is part of the UTOPIA slave interface. Indicates that a signal is part of the 8-bit UTOPIA interface. Indicates that a signal is part of the 16-bit UTOPIA interface. Indicates that a signal is part of the media independent interface.
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MPC826xA (HiP4) Family Hardware Specifications
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Package Description
1.5
1.5.1
Package Description
Package Parameters
Table 21. Package Parameters
Parameter Package Outline Interconnects Pitch Value 37.5 x 37.5 mm 480 (29 x 29 ball array) 1.27 mm
The following sections provide the package parameters and mechanical dimensions for the MPC826xA.
Package parameters are provided in Table 21. The package type is a 37.5 x 37.5 mm, 480-lead TBGA.
Nominal unmounted package height 1.55 mm
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MPC826xA (HiP4) Family Hardware Specifications
43
Package Description
1.5.2
Mechanical Dimensions
Figure 15 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 maximum solder ball diameter, parallel to primary data A. 4. Primary data A and the seating plane are defined by the spherical crowns of the solder balls. Millimeters Dim Min A A1 A2 A3 b D D1 e E E1 1.45 0.60 0.85 0.25 0.65 Max 1.65 0.70 0.95 — 0.85
37.50 BSC 35.56 REF 1.27 BSC 37.50 BSC 35.56 REF
Figure 15. Mechanical Dimensions and Bottom Surface Nomenclature
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MPC826xA (HiP4) Family Hardware Specifications
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Ordering Information
1.6
Ordering Information
Figure 16 provides an example of the Motorola part numbering nomenclature for the MPC826xA. 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 Motorola sales office.
MPC 826X A C ZU XXX X
Product Code Device Number Die Revision Level
Process Technology (None = 0.29 micron A = 0.25 micron) Temperature Range (Blank = 0 to 105 ˚C C = -40 to 105 ˚C
Processor Frequency (CPU/CPM/Bus)
Package ZU = 480 TBGA VR = 516 PBGA
Figure 16. Motorola Part Number Key
1.7
Document Revision History
Table 22. Document Revision History
Table 22 lists significant changes in each revision of this document.
Revision 0 0.1 0.2
Date — 8/2001 11/2001 Initial version • Table 8: Change to sp20/sp21. • • • •
Substantive Changes
Revision of Table 5, “Power Dissipation” Modifications to Figure 9, Table 2,Table 10, Table 11, and Table 17 Modification to pinout diagram, Figure 13 Additional revisions to text and figures throughout
0.3
11/2001
• Table 1: note 3 • Section 1.2.1: Removal of “Warning” recommending use of bootstrap diodes. They are not needed. • Table 9: Change to sp12. • Table 10: Change to sp32. • Note 2 for Table 15 and Table 16 • Addition of note at beginning of Section 1.3.2 • Note 1 for Table 17 and Table 18 • Table 19: Additions to B27, C28, D25, D27, E26, G29, H26–28, N25, P29, AF25, AA25, AB27 • Note 2 for Table 2 (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: Notes added to pins at AE11, AF25, U5, and V4.
0.4
2/2002
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MPC826xA (HiP4) Family Hardware Specifications
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Document Revision History Table 22. Document Revision History (Continued)
Revision 0.5 0.6 0.7 Date 3/2002 3/2002 5/2002 Substantive Changes • Table 19: Modified notes to pins AE11 and AF25. • Table 19: Addition of note to pins AA1 and AG4 (Therm0 and Therm1). • Table 19: Modified notes to pins AE11 and AF25. • • • • • • • • • • Section 1.1, “Features”: minimum supported core frequency of 150 MHz Section 1.1, “Features”: updated performance values (under “Dual-issue integer core”) Table 2: Note 2 (changes in italics): “...less than or equal to 233 MHz, 166 MHz CPM...” Table 2: Addition of note 3. Table 2: Modification to supply voltage ranges reflected in notes 2, 3, and 4. Table 4: Addition of θJB and θJC. Table 7, Figure 8: Addition of sp42a/sp43a. Figure 3, Figure 4: Addition of note for FCC output. Figure 5, Figure 6, Figure 7: Addition of notes. Table 13, Table 16, and Table 18: Removal of PLL bypass mode from clock tables.
0.8
1/2003
0.9
8/2003
• Note: In revision 0.3, sp30 (Table 10) was changed. This change was not previously recorded in this “Document Revision History” Table. • Removal of “HiP4 PowerQUICC II Documentation” table. These supplemental specifications have been replaced by revision 1 of the MPC8260 PowerQUICC II™ Family Reference Manual. • Figure 1 and Section 1.1, “Features”: Addition of MPC8255 notes • Addition of Figure 2 • Addition of VCCSYN to “Note: Core, PLL, and I/O Supply Voltages” following Table 2 • Addition of note 1 to Table 3 • Table 4: Changes to θJA and θJB and θJC. • Addition of notes or modifications to Figure 6, Figure 7, and Figure 8 • Table 9: Change of sp10. • Addition of Table 14. • Addition of note 2 to Table 19 • Table 19: Addition of FCC2 Rx and Tx [3,4] to CPM pins PD7, PD18, PD19, and PD29. Also, the addition of SPICLK to PC19. They are documented correctly in the parallel I/O ports chapter in the MPC8260 PowerQUICC II™ Family Reference Manual but had previously been omitted from Table 19.
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MPC826xA (HiP4) Family Hardware Specifications
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Document Revision History
THIS PAGE INTENTIONALLY LEFT BLANK
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Information in this document is provided solely to enable system and software
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M PC8260AEC/D