MOTOROLA MPC862

Freescale Semiconductor, Inc.
Advance Information
MPC862EC/D
Rev. 1.2, 8/2003
Freescale Semiconductor, Inc...
MPC862/857T/857DSL
Hardware Specifications
This document contains detailed information on power considerations, DC/AC electrical
characteristics, and AC timing specifications for the MPC862/857T/857DSL family (refer to
Table 1 for a list of devices). The MPC862P, which contains a PowerPC™ core processor, is
the superset device of the MPC862/857T/857DSL family.
This document describes pertinent electrical and physical characteristics of the MPC8245. For
functional characteristics of the processor, refer to the MPC862 PowerQUICC Family Users
Manual (MPC862UM/D).
This document contains the following topics:
Topic
Section 1, “Overview”
Section 2, “Features”
Section 3, “Maximum Tolerated Ratings”
Section 4, “Thermal Characteristics”
Section 5, “Power Dissipation”
Section 6, “DC Characteristics”
Section 7, “Thermal Calculation and Measurement”
Section 8, “Layout Practices”
Section 9, “Bus Signal Timing”
Section 10, “IEEE 1149.1 Electrical Specifications”
Section 11, “CPM Electrical Characteristics”
Section 12, “UTOPIA AC Electrical Specifications”
Section 13, “FEC Electrical Characteristics”
Section 14, “Mechanical Data and Ordering Information”
Section 15, “Document Revision History”
1
Page
1
2
7
9
10
11
12
15
15
44
45
68
69
73
86
Overview
The MPC862/857T/857DSL is a derivative of Motorola’s MPC860 PowerQUICC™ family of
devices. It is a versatile single-chip integrated microprocessor and peripheral combination that
can be used in a variety of controller applications and communications and networking
systems. The MPC862/857T/857DSL provides enhanced ATM functionality over that of other
ATM-enabled members of the MPC860 family.
For More Information On This Product,
Go to: www.freescale.com
Freescale Semiconductor, Inc.
Features
Table 1 shows the functionality supported by the members of the MPC862/857T/857DSL family.
Table 1. MPC862 Family Functionality
Cache
Part
Ethernet
SCC
SMC
1
4
2
Up to 4
1
4
2
1
1
1
2
1
11
12
Instruction
Cache
Data Cache
10T
10/100
MPC862P
16 Kbyte
8 Kbyte
Up to 4
MPC862T
4 Kbyte
4 Kbyte
MPC857T
4 Kbyte
4 Kbyte
MPC857DSL
4 Kbyte
4 Kbyte
1
Freescale Semiconductor, Inc...
1
On the MPC857DSL, the SCC (SCC1) is for ethernet only. Also, the MPC857DSL does
not support the Time Slot Assigner (TSA).
2 On the MPC857DSL, the SMC (SMC1) is for UART only.
2
Features
The following list summarizes the key MPC862/857T/857DSL features:
•
•
2
Embedded single-issue, 32-bit MPC8xx core (implementing the PowerPC architecture) with
thirty-two 32-bit general-purpose registers (GPRs)
— The core performs branch prediction with conditional prefetch, without conditional execution
— 4- or 8-Kbyte data cache and 4- or 16-Kbyte instruction cache (see Table 1).
– 16-Kbyte instruction cache (MPC862P) is four-way, set-associative with 256 sets; 4-Kbyte
instruction cache (MPC862T, MPC857T, and MPC857DSL) is two-way, set-associative
with 128 sets.
– 8-Kbyte data cache (MPC862P) is two-way, set-associative with 256 sets; 4-Kbyte data
cache (MPC862T, MPC857T, and MPC857DSL) is two-way, set-associative with 128 sets.
– Cache coherency for both instruction and data caches is maintained on 128-bit (4-word)
cache blocks.
– Caches are physically addressed, implement a least recently used (LRU) replacement
algorithm, and are lockable on a cache block basis.
— MMUs with 32-entry TLB, fully associative instruction and data TLBs
— MMUs support multiple page sizes of 4, 16, and 512 Kbytes, and 8 Mbytes; 16 virtual address
spaces and 16 protection groups
— Advanced on-chip-emulation debug mode
The MPC862/857T/857DSL provides enhanced ATM functionality over that of the MPC860SAR.
The MPC862/857T/857DSL adds major new features available in “enhanced SAR” (ESAR) mode,
including the following:
— Improved operation, administration and maintenance (OAM) support
— OAM performance monitoring (PM) support
— Multiple APC priority levels available to support a range of traffic pace requirements
— ATM port-to-port switching capability without the need for RAM-based microcode
— Simultaneous MII (10/100Base-T) and UTOPIA (half-duplex) capability
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Freescale Semiconductor, Inc...
•
•
•
•
•
•
•
Features
— Optional statistical cell counters per PHY
— UTOPIA level 2 compliant interface with added FIFO buffering to reduce the total cell
transmission time. (The earlier UTOPIA level 1 specification is also supported.)
— Multi-PHY support on the MPC857T
— Four PHY support on the MPC857DSL
— Parameter RAM for both SPI and I2C can be relocated without RAM-based microcode
— Supports full-duplex UTOPIA both master (ATM side) and slave (PHY side) operation using a
“split” bus
— AAL2/VBR functionality is ROM-resident
Up to 32-bit data bus (dynamic bus sizing for 8, 16, and 32 bits)
32 address lines
Memory controller (eight banks)
— Contains complete dynamic RAM (DRAM) controller
— Each bank can be a chip select or RAS to support a DRAM bank
— Up to 30 wait states programmable per memory bank
— Glueless interface to Page mode/EDO/SDRAM, SRAM, EPROMs, flash EPROMs, and other
memory devices.
— DRAM controller programmable to support most size and speed memory interfaces
— Four CAS lines, four WE lines, one OE line
— Boot chip-select available at reset (options for 8-, 16-, or 32-bit memory)
— Variable block sizes (32 Kbyte–256 Mbyte)
— Selectable write protection
— On-chip bus arbitration logic
General-purpose timers
— Four 16-bit timers cascadable to be two 32-bit timers
— Gate mode can enable/disable counting
— Interrupt can be masked on reference match and event capture
Fast Ethernet controller (FEC)
— Simultaneous MII (10/100Base-T) and UTOPIA operation when using the UTOPIA
multiplexed bus.
System integration unit (SIU)
— Bus monitor
— Software watchdog
— Periodic interrupt timer (PIT)
— Low-power stop mode
— Clock synthesizer
— Decrementer, time base, and real-time clock (RTC) from the PowerPC architecture
— Reset controller
— IEEE 1149.1 test access port (JTAG)
Interrupts
— Seven external interrupt request (IRQ) lines
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
3
Features
Freescale Semiconductor, Inc...
•
•
•
•
•
4
Freescale Semiconductor, Inc.
— 12 port pins with interrupt capability
— The MPC862P and MPC862T have 23 internal interrupt sources; the MPC857T and
MPC857DSL have 20 internal interrupt sources
— Programmable priority between SCCs (MPC862P and MPC862T)
— Programmable highest priority request
Communications processor module (CPM)
— RISC controller
— Communication-specific commands (for example, GRACEFUL STOP TRANSMIT, ENTER HUNT
MODE, and RESTART TRANSMIT)
— Supports continuous mode transmission and reception on all serial channels
— Up to 8-Kbytes of dual-port RAM
— The MPC862P and MPC862T have 16 serial DMA (SDMA) channels; the MPC857T and
MPC857DSL have 10 serial DMA (SDMA) channels
— Three parallel I/O registers with open-drain capability
Four baud rate generators
— Independent (can be connected to any SCC or SMC)
— Allow changes during operation
— Autobaud support option
The MPC862P and MPC862T have four SCCs (serial communication controller) The MPC857T
and MPC857DSL have one SCC, SCC1; the MPC857DSL supports ethernet only
— Serial ATM capability on all SCCs
— Optional UTOPIA port on SCC4
— Ethernet/IEEE 802.3 optional on SCC1–4, supporting full 10-Mbps operation
— HDLC/SDLC
— HDLC bus (implements an HDLC-based local area network (LAN))
— Asynchronous HDLC to support PPP (point-to-point protocol)
— AppleTalk
— Universal asynchronous receiver transmitter (UART)
— Synchronous UART
— Serial infrared (IrDA)
— Binary synchronous communication (BISYNC)
— Totally transparent (bit streams)
— Totally transparent (frame based with optional cyclic redundancy check (CRC))
Two SMCs (serial management channels) (The MPC857DSL has one SMC, SMC1 for UART)
— UART
— Transparent
— General circuit interface (GCI) controller
— Can be connected to the time-division multiplexed (TDM) channels
One serial peripheral interface (SPI)
— Supports master and slave modes
— Supports multiple-master operation on the same bus
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
•
Freescale Semiconductor, Inc...
•
•
•
•
•
•
•
•
Features
One inter-integrated circuit (I2C) port
— Supports master and slave modes
— Multiple-master environment support
Time-slot assigner (TSA) (The MPC857DSL does not have the TSA)
— Allows SCCs and SMCs to run in multiplexed and/or non-multiplexed operation
— Supports T1, CEPT, PCM highway, ISDN basic rate, ISDN primary rate, user defined
— 1- or 8-bit resolution
— Allows independent transmit and receive routing, frame synchronization, clocking
— Allows dynamic changes
— On the MPC862P and MPC862T, can be internally connected to six serial channels (four SCCs
and two SMCs); on the MPC857T, can be connected to three serial channels (one SCC and two
SMCs)
Parallel interface port (PIP)
— Centronics interface support
— Supports fast connection between compatible ports on MPC862/857T/857DSL or MC68360
PCMCIA interface
— Master (socket) interface, release 2.1 compliant
— Supports one or two PCMCIA sockets dependent upon whether ESAR functionality is enabled
— 8 memory or I/O windows supported
Low power support
— Full on—All units fully powered
— Doze—Core functional units disabled except time base decrementer, PLL, memory controller,
RTC, and CPM in low-power standby
— Sleep—All units disabled except RTC, PIT, time base, and decrementer with PLL active for fast
wake up
— Deep sleep—All units disabled including PLL except RTC, PIT, time base, and decrementer.
— Power down mode— All units powered down except PLL, RTC, PIT, time base and
decrementer
Debug interface
— Eight comparators: four operate on instruction address, two operate on data address, and two
operate on data
— Supports conditions: = ≠ < >
— Each watchpoint can generate a break point internally
3.3 V operation with 5-V TTL compatibility except EXTAL and EXTCLK
357-pin plastic ball grid array (PBGA) package
Operation up to 100MHz
The MPC862/857T/857DSL is comprised of three modules that each use the 32-bit internal bus: the
MPC8xx core, the system integration unit (SIU), and the communication processor module (CPM). The
MPC862P/862T block diagram is shown in Figure 1. The MPC857T/857DSL block diagram is shown in
Figure 2.
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
5
Freescale Semiconductor, Inc.
Features
16-Kbyte*
Instruction Cache
Instruction
Bus
Embedded
MPC8xx
Processor
Core
System Interface Unit (SIU)
Unified
Bus
Instruction MMU
32-Entry ITLB
Load/Store
Bus
Memory Controller
Internal
External
Bus Interface Bus Interface
Unit
Unit
8-Kbyte*
Data Cache
System Functions
Data MMU
32-Entry DTLB
Real-Time Clock
PCMCIA/ATA Interface
Fast Ethernet
Controller
Freescale Semiconductor, Inc...
DMAs
FIFOs
10/100
Base-T
Media Access
Control
Parallel I/O
4
Timers
4 Baud Rate
Generators
Parallel Interface Port
Timers
and UTOPIA
Interrupt
8-Kbyte
Controllers Dual-Port RAM
32-Bit RISC Controller
and Program
ROM
16
Serial
and
2
Independent
DMA
Channels
MII
SCC1
SCC2
SCC3
SCC4
SMC1
SMC2
SPI
I2C
Time
TimeSlot
Slot Assigner
Assigner
Serial Interface
*The MPC862T contains 4-Kbyte instruction cache and 4-Kbyte data cache.
Figure 1. MPC862P/862T Block Diagram
6
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Maximum Tolerated Ratings
4-Kbyte
Instruction Cache
Instruction
Bus
Embedded
MPC8xx
Processor
Core
System Interface Unit (SIU)
Unified
Bus
Instruction MMU
32-Entry ITLB
Load/Store
Bus
Memory Controller
Internal
External
Bus Interface Bus Interface
Unit
Unit
4-Kbyte
Data Cache
System Functions
Data MMU
32-Entry DTLB
Real-Time Clock
PCMCIA/ATA Interface
Fast Ethernet
Controller
Freescale Semiconductor, Inc...
DMAs
FIFOs
10/100
Base-T
Media Access
Control
Parallel I/O
4
Timers
4 Baud Rate
Generators
Parallel Interface Port
Timers
and UTOPIA
Interrupt
8-Kbyte
Controllers Dual-Port RAM
32-Bit RISC Controller
and Program
ROM
10
Serial
and
2
Independent
DMA
Channels
MII
SMC1
SCC1
SMC2*
SPI
I2C
Time
TimeSlot
Slot Assigner
Assigner
Serial Interface
*The MPC857DSL does not contain SMC2 nor the Time Slot Assigner, and provides eight SDMA controllers.
Figure 2. MPC857T/MPC857DSL Block Diagram
3
Maximum Tolerated Ratings
This section provides the maximum tolerated voltage
MPC862/857T/857DSL. Table 2 provides the maximum ratings.
and
temperature
ranges
for
the
Table 2. Maximum Tolerated Ratings
(GND = 0 V)
Rating
Supply voltage 1
Input
voltage 2
MOTOROLA
Symbol
Value
Unit
Max Freq
(MHz)
VDDH
-0.3 to 4.0
V
-
VDDL
-0.3 to 4.0
V
-
KAPWR
-0.3 to 4.0
V
-
VDDSYN
-0.3 to 4.0
V
-
Vin
GND-0.3 to VDDH
V
-
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
7
Freescale Semiconductor, Inc.
Maximum Tolerated Ratings
Table 2. Maximum Tolerated Ratings (continued)
(GND = 0 V)
Rating
Temperature 3 (standard) 4
3
Temperature (extended)
Storage temperature range
Symbol
Value
Unit
Max Freq
(MHz)
TA(min)
0
˚C
100
Tj(max)
105
˚C
100
TA(min)
-40
˚C
80
Tj(max)
115
˚C
80
Tstg
-55 to +150
˚C
-
1
The power supply of the device must start its ramp from 0.0 V.
Functional operating conditions are provided with the DC electrical specifications in Table 5. Absolute maximum
ratings are stress ratings only; functional operation at the maxima is not guaranteed. Stress beyond those listed
may affect device reliability or cause permanent damage to the device.
Caution: All inputs that tolerate 5 V cannot be more than 2.5 V greater than the supply voltage. This restriction
applies to power-up and normal operation (that is, if the MPC862/857T/857DSL is unpowered, voltage greater
than 2.5 V must not be applied to its inputs).
3 Minimum temperatures are guaranteed as ambient temperature, T . Maximum temperatures are guaranteed as
A
junction temperature, Tj.
4 JTAG is tested only at ambient, not at standard maximum or extended maximum.
Freescale Semiconductor, Inc...
2
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 (for example, either GND or VCC).
8
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Thermal Characteristics
4
Thermal Characteristics
Table 3 shows the thermal characteristics for the MPC862/857T/857DSL.
Table 3. MPC862/857T/857DSL Thermal Resistance Data
Rating
Environment
Junction to ambient 1
Natural Convection
Value
Unit
RθJA 2
37
°C/W
Four layer board (2s2p)
RθJMA
3
23
Single layer board (1s)
RθJMA3
30
Four layer board (2s2p)
RθJMA3
19
Junction to board 4
RθJB
13
5
RθJC
6
Junction to package top 6 Natural Convection
ΨJT
2
Air flow (200 ft/min)
ΨJT
2
Air flow (200 ft/min)
Freescale Semiconductor, Inc...
Single layer board (1s)
Symbol
Junction to case
1
2
3
4
5
6
Junction temperature is a function of on-chip power dissipation, package thermal resistance, mounting site
(board) temperature, ambient temperature, air flow, power dissipation of other components on the board,
and board thermal resistance.
Per SEMI G38-87 and JEDEC JESD51-2 with the single layer board horizontal.
Per JEDEC JESD51-6 with the board horizontal.
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.
Indicates the average thermal resistance between the die and the case top surface as measured by the cold
plate method (MIL SPEC-883 Method 1012.1) with the cold plate temperature used for the case
temperature. For exposed pad packages where the pad would be expected to be soldered, junction to case
thermal resistance is a simulated value from the junction to the exposed pad without contact resistance.
Thermal characterization parameter indicating the temperature difference between package top and the
junction temperature per JEDEC JESD51-2.
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
9
Power Dissipation
5
Freescale Semiconductor, Inc.
Power Dissipation
Table 4 provides power dissipation information. The modes are 1:1, where CPU and bus speeds are equal,
and 2:1 mode, where CPU frequency is twice bus speed.
Freescale Semiconductor, Inc...
Table 4. Power Dissipation (PD)
1
2
Die Revision
Frequency
Typical 1
Maximum 2
Unit
0
(1:1 Mode)
50 MHz
656
735
mW
66 MHz
TBD
TBD
mW
A.1, B.0
(1:1 Mode)
50 MHz
630
760
mW
66 MHz
890
1000
mW
A.1, B.0
(2:1 Mode)
66 MHz
910
1060
mW
80 MHz
1.06
1.20
W
B.0
(2:1 Mode)
100 MHz
1.35
1.54
W
Typical power dissipation is measured at 3.3 V.
Maximum power dissipation is measured at 3.5 V.
NOTE
Values in Table 4 represent VDDL based power dissipation and do not
include I/O power dissipation over VDDH. I/O power dissipation varies
widely by application due to buffer current, depending on external
circuitry.
10
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
6
DC Characteristics
DC Characteristics
Table 5 provides the DC electrical characteristics for the MPC862/857T/857DSL.
Table 5. DC Electrical Specifications
Characteristic
Symbol
Min
Max
Unit
VDDH, VDDL,
KAPWR,
VDDSYN
3.135
3.465
V
KAPWR
(power-down
mode)
2.0
3.6
V
KAPWR
(all other
operating
modes)
VDDH – 0.4
VDDH
V
Input High Voltage (all inputs except EXTAL and EXTCLK)
VIH
2.0
5.5
V
Input Low Voltage
VIL
GND
0.8
V
VIHC
0.7*(VCC)
VCC+0.3
V
Input Leakage Current, Vin = 5.5 V (Except TMS, TRST,
DSCK and DSDI pins)
Iin
—
100
µA
Input Leakage Current, Vin = 3.6 V (Except TMS, TRST,
DSCK, and DSDI)
IIn
—
10
µA
Input Leakage Current, Vin = 0 V (Except TMS, TRST, DSCK,
and DSDI pins)
IIn
—
10
µA
Input Capacitance 1
Cin
—
20
pF
VOH
2.4
—
V
Freescale Semiconductor, Inc...
Operating voltage
EXTAL, EXTCLK Input High Voltage
Output High Voltage, IOH = -2.0 mA, VDDH = 3.0 V
(Except XTAL, XFC, and Open drain pins)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
11
Freescale Semiconductor, Inc.
Thermal Calculation and Measurement
Table 5. DC Electrical Specifications (continued)
Characteristic
Output Low Voltage
IOL = 2.0 mA (CLKOUT)
IOL = 3.2 mA 2
IOL = 5.3 mA 3
IOL = 7.0 mA (TXD1/PA14, TXD2/PA12)
IOL = 8.9 mA (TS, TA, TEA, BI, BB, HRESET, SRESET)
Symbol
Min
Max
Unit
VOL
—
0.5
V
1
Input capacitance is periodically sampled.
A(0:31), TSIZ0/REG, TSIZ1, D(0:31), DP(0:3)/IRQ(3:6), RD/WR, BURST, RSV/IRQ2, IP_B(0:1)/IWP(0:1)/VFLS(0:1),
IP_B2/IOIS16_B/AT2, IP_B3/IWP2/VF2, IP_B4/LWP0/VF0, IP_B5/LWP1/VF1, IP_B6/DSDI/AT0, IP_B7/PTR/AT3,
RXD1 /PA15, RXD2/PA13, L1TXDB/PA11, L1RXDB/PA10, L1TXDA/PA9, L1RXDA/PA8,
TIN1/L1RCLKA/BRGO1/CLK1/PA7, BRGCLK1/TOUT1/CLK2/PA6, TIN2/L1TCLKA/BRGO2/CLK3/PA5,
TOUT2/CLK4/PA4, TIN3/BRGO3/CLK5/PA3, BRGCLK2/L1RCLKB/TOUT3/CLK6/PA2, TIN4/BRGO4/CLK7/PA1,
L1TCLKB/TOUT4/CLK8/PA0, REJCT1/SPISEL/PB31, SPICLK/PB30, SPIMOSI/PB29, BRGO4/SPIMISO/PB28,
BRGO1/I2CSDA/PB27, BRGO2/I2CSCL/PB26, SMTXD1/PB25, SMRXD1/PB24, SMSYN1/SDACK1/PB23,
SMSYN2/SDACK2/PB22, SMTXD2/L1CLKOB/PB21, SMRXD2/L1CLKOA/PB20, L1ST1/RTS1/PB19,
L1ST2/RTS2/PB18, L1ST3/L1RQB/PB17, L1ST4/L1RQA/PB16, BRGO3/PB15, RSTRT1/PB14,
L1ST1/RTS1/DREQ0/PC15, L1ST2/RTS2/DREQ1/PC14, L1ST3/L1RQB/PC13, L1ST4/L1RQA/PC12, CTS1/PC11,
TGATE1/CD1/PC10, CTS2/PC9, TGATE2/CD2/PC8, CTS3/SDACK2/L1TSYNCB/PC7, CD3/L1RSYNCB/PC6,
CTS4/SDACK1/L1TSYNCA/PC5, CD4/L1RSYNCA/PC4, PD15/L1TSYNCA, PD14/L1RSYNCA, PD13/L1TSYNCB,
PD12/L1RSYNCB, PD11/RXD3, PD10/TXD3, PD9/RXD4, PD8/TXD4, PD5/REJECT2, PD6/RTS4, PD7/RTS3,
PD4/REJECT3, PD3, MII_MDC, MII_TX_ER, MII_EN, MII_MDIO, MII_TXD[0:3].
3 BDIP/GPL_B(5), BR, BG, FRZ/IRQ6, CS(0:5), CS(6)/CE(1)_B, CS(7)/CE(2)_B, WE0/BS_B0/IORD,
WE1/BS_B1/IOWR, WE2/BS_B2/PCOE, WE3/BS_B3/PCWE, BS_A(0:3), GPL_A0/GPL_B0, OE/GPL_A1/GPL_B1,
GPL_A(2:3)/GPL_B(2:3)/CS(2:3), UPWAITA/GPL_A4, UPWAITB/GPL_B4, GPL_A5, ALE_A, CE1_A, CE2_A,
ALE_B/DSCK/AT1, OP(0:1), OP2/MODCK1/STS, OP3/MODCK2/DSDO, BADDR(28:30).
Freescale Semiconductor, Inc...
2
7
Thermal Calculation and Measurement
For the following discussions, PD= (VDD x IDD) + PI/O, where PI/O is the power dissipation of the I/O
drivers.
7.1
Estimation with Junction-to-Ambient Thermal
Resistance
An estimation of the chip junction temperature, TJ, in °C can be obtained from the equation:
TJ = TA +(RθJA x PD)
where:
TA = ambient temperature (ºC)
RθJA = package junction-to-ambient thermal resistance (ºC/W)
PD = power dissipation in package
The junction-to-ambient thermal resistance is an industry standard value which provides a quick and easy
estimation of thermal performance. However, the answer is only an estimate; test cases have demonstrated
that errors of a factor of two (in the quantity TJ-TA) are possible.
12
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Thermal Calculation and Measurement
7.2
Estimation with Junction-to-Case Thermal Resistance
Historically, the thermal resistance has frequently been expressed as the sum of a junction-to-case thermal
resistance and a case-to-ambient thermal resistance:
RθJA = RθJC + RθCA
where:
RθJC is device related and cannot be influenced by the user. The user adjusts the thermal environment to
affect the case-to-ambient thermal resistance, RθCA. For instance, the user can change the air flow around
the device, add a heat sink, change the mounting arrangement on the printed circuit board, or change the
thermal dissipation on the printed circuit board surrounding the device. This thermal model is most useful
for ceramic packages with heat sinks where some 90% of the heat flows through the case and the heat sink
to the ambient environment. For most packages, a better model is required.
7.3
Estimation with Junction-to-Board Thermal Resistance
A simple package thermal model which has demonstrated reasonable accuracy (about 20%) is a two resistor
model consisting of a junction-to-board and a junction-to-case thermal resistance. The junction-to-case
covers the situation where a heat sink is used or where a substantial amount of heat is dissipated from the
top of the package. The junction-to-board thermal resistance describes the thermal performance when most
of the heat is conducted to the printed circuit board. It has been observed that the thermal performance of
most plastic packages and especially PBGA packages is strongly dependent on the board temperature; see
Figure 3.
100
Junction Temperature Rise Above
Ambient Divided by Package Power
Freescale Semiconductor, Inc...
RθJA = junction-to-ambient thermal resistance (ºC/W)
RθJC = junction-to-case thermal resistance (ºC/W)
RθCA = case-to-ambient thermal resistance (ºC/W)
90
80
70
60
50
40
30
20
10
0
0
20
40
60
80
Board Temperture Rise Above Ambient Divided by Package
Power
Figure 3. Effect of Board Temperature Rise on Thermal Behavior
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
13
Freescale Semiconductor, Inc.
Thermal Calculation and Measurement
If the board temperature is known, an estimate of the junction temperature in the environment can be made
using the following equation:
TJ = TB +(RθJB x PD)
where:
RθJB = junction-to-board thermal resistance (ºC/W)
TB = board temperature (ºC)
PD = power dissipation in package
Freescale Semiconductor, Inc...
If the board temperature is known and the heat loss from the package case to the air can be ignored,
acceptable predictions of junction temperature can be made. For this method to work, the board and board
mounting must be similar to the test board used to determine the junction-to-board thermal resistance,
namely a 2s2p (board with a power and a ground plane) and vias attaching the thermal balls to the ground
plane.
7.4
Estimation Using Simulation
When the board temperature is not known, a thermal simulation of the application is needed. The simple
two resistor model can be used with the thermal simulation of the application [2], or a more accurate and
complex model of the package can be used in the thermal simulation.
7.5
Experimental Determination
To determine the junction temperature of the device in the application after prototypes are available, the
thermal characterization parameter (ΨJT) can be used to determine the junction temperature with a
measurement of the temperature at the top center of the package case using the following equation:
TJ = TT +(ΨJT x PD)
where:
ΨJT = thermal characterization parameter
TT = thermocouple temperature on top of package
PD = power dissipation in package
The thermal characterization parameter is measured per JESD51-2 specification published by JEDEC using
a 40-gauge type T thermocouple epoxied to the top center of the package case. The thermocouple should be
positioned so that the thermocouple junction rests on the package. A small amount of epoxy is placed over
the thermocouple junction and over about 1 mm of wire extending from the junction. The thermocouple
wire is placed flat against the package case to avoid measurement errors caused by cooling effects of the
thermocouple wire.
7.6
References
Semiconductor Equipment and Materials International
805 East Middlefield Rd.
Mountain View, CA 94043
(415) 964-5111
MIL-SPEC and EIA/JESD (JEDEC) Specifications
(Available from Global Engineering Documents)
800-854-7179 or
303-397-7956
JEDEC Specifications
http://www.jedec.org
14
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Layout Practices
1. C.E. Triplett and B. Joiner, “An Experimental Characterization of a 272 PBGA Within an Automotive
Engine Controller Module,” Proceedings of SemiTherm, San Diego, 1998, pp. 47-54.
2. B. Joiner and V. Adams, “Measurement and Simulation of Junction to Board Thermal Resistance and Its
Application in Thermal Modeling,” Proceedings of SemiTherm, San Diego, 1999, pp. 212-220.
Freescale Semiconductor, Inc...
8
Layout Practices
Each VCC pin on the MPC862/857T/857DSL should be provided with a low-impedance path to the board’s
supply. Each GND 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 GND 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 MPC862/857T/857DSL have fast rise and fall times. Printed circuit (PC) trace
interconnection length should be minimized in order to minimize undershoot and reflections caused by these
fast output switching times. This recommendation particularly applies to the address and data busses.
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.
9
Bus Signal Timing
The maximum bus speed supported by the MPC862/857T/857DSL is 66 MHz. Higher-speed parts must be
operated in half-speed bus mode (for example, an MPC862/857T/857DSL used at 80MHz must be
configured for a 40 MHz bus). Table 6 shows the period ranges for standard part frequencies.
Table 6. Period Range for Standard Part Frequencies
50 MHz
66 MHz
80 MHz
100 MHz
Freq
Period
Min
Max
Min
Max
Min
Max
Min
Max
20.00
30.30
15.15
30.30
25.00
30.30
20.00
30.30
Table 7 provides the bus operation timing for the MPC862/857T/857DSL at 33 MHz, 40 Mhz, 50 MHz and
66 Mhz.
The timing for the MPC862/857T/857DSL bus shown assumes a 50-pF load for maximum delays and a
0-pF load for minimum delays.
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
15
Bus Signal Timing
Freescale Semiconductor, Inc.
Table 7. Bus Operation Timings
33 MHz
Num
50 MHz
66 MHz
Unit
Min
Max
Min
Max
Min
Max
Min
Max
30.30
30.30
25.00
30.30
20.00
30.30
15.15
30.30
ns
B1a EXTCLK to CLKOUT phase skew
(EXTCLK > 15 MHz and MF <= 2)
-0.90
0.90
-0.90
0.90
-0.90
0.90
-0.90
0.90
ns
B1b EXTCLK to CLKOUT phase skew
(EXTCLK > 10 MHz and MF < 10)
-2.30
2.30
-2.30
2.30
-2.30
2.30
-2.30
2.30
ns
B1c CLKOUT phase jitter (EXTCLK > 15
MHz and MF <= 2) 1
-0.60
0.60
-0.60
0.60
-0.60
0.60
-0.60
0.60
ns
B1d CLKOUT phase jitter1
B1
Freescale Semiconductor, Inc...
40 MHz
Characteristic
CLKOUT period
-2.00
2.00
-2.00
2.00
-2.00
2.00
-2.00
2.00
ns
1
—
0.50
—
0.50
—
0.50
—
0.50
%
CLKOUT frequency jitter (10 < MF <
500) 1
—
2.00
—
2.00
—
2.00
—
2.00
%
B1g CLKOUT frequency jitter (MF > 500) 1
—
3.00
—
3.00
—
3.00
—
3.00
%
B1h Frequency jitter on EXTCLK 2
—
0.50
—
0.50
—
0.50
—
0.50
%
B1e CLKOUT frequency jitter (MF < 10)
B1f
B2
CLKOUT pulse width low (MIN = 0.040 12.10
x B1)
—
10.00
—
8.00
—
6.10
—
ns
B3
CLKOUT width high (MIN = 0.040 x
B1)
12.10
—
10.00
—
8.00
—
6.10
—
ns
B4
CLKOUT rise time 3 (MAX = 0.00 x B1
+ 4.00)
—
4.00
—
4.00
—
4.00
—
4.00
ns
B533 CLKOUT fall time3 (MAX = 0.00 x B1 +
4.00)
—
4.00
—
4.00
—
4.00
—
4.00
ns
7.60
—
6.30
—
5.00
—
3.80
—
ns
B7a CLKOUT to TSIZ(0:1), REG, RSV,
AT(0:3), BDIP, PTR invalid (MIN = 0.25
x B1)
7.60
—
6.30
—
5.00
—
3.80
—
ns
B7b CLKOUT to BR, BG, FRZ, VFLS(0:1),
VF(0:2) IWP(0:2), LWP(0:1), STS
invalid 4 (MIN = 0.25 x B1)
7.60
—
6.30
—
5.00
—
3.80
—
ns
B8
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
B8a CLKOUT to TSIZ(0:1), REG, RSV,
AT(0:3) BDIP, PTR valid (MAX = 0.25 x
B1 + 6.3)
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
B8b CLKOUT to BR, BG, VFLS(0:1),
VF(0:2), IWP(0:2), FRZ, LWP(0:1),
STS Valid 4 (MAX = 0.25 x B1 + 6.3)
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
B7
16
CLKOUT to A(0:31), BADDR(28:30),
RD/WR, BURST, D(0:31), DP(0:3)
invalid (MIN = 0.25 x B1)
CLKOUT to A(0:31), BADDR(28:30)
RD/WR, BURST, D(0:31), DP(0:3)
valid (MAX = 0.25 x B1 + 6.3)
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Table 7. Bus Operation Timings (continued)
33 MHz
Num
50 MHz
66 MHz
Unit
Min
Max
Min
Max
Min
Max
Min
Max
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
B11 CLKOUT to TS, BB assertion (MAX =
0.25 x B1 + 6.0)
7.60
13.60
6.30
12.30
5.00
11.00
3.80
11.30
ns
B11a CLKOUT to TA, BI assertion (when
driven by the memory controller or
PCMCIA interface) (MAX = 0.00 x B1
+ 9.30 5)
2.50
9.30
2.50
9.30
2.50
9.30
2.50
9.80
ns
B12 CLKOUT to TS, BB negation (MAX =
0.25 x B1 + 4.8)
7.60
12.30
6.30
11.00
5.00
9.80
3.80
8.50
ns
B12a CLKOUT to TA, BI negation (when
driven by the memory controller or
PCMCIA interface) (MAX = 0.00 x B1
+ 9.00)
2.50
9.00
2.50
9.00
2.50
9.00
2.50
9.00
ns
B13 CLKOUT to TS, BB High-Z (MIN = 0.25
x B1)
7.60
21.60
6.30
20.30
5.00
19.00
3.80
14.00
ns
B13a CLKOUT to TA, BI High-Z (when
driven by the memory controller or
PCMCIA interface) (MIN = 0.00 x B1 +
2.5)
2.50
15.00
2.50
15.00
2.50
15.00
2.50
15.00
ns
B14 CLKOUT to TEA assertion (MAX =
0.00 x B1 + 9.00)
2.50
9.00
2.50
9.00
2.50
9.00
2.50
9.00
ns
B15 CLKOUT to TEA High-Z (MIN = 0.00 x
B1 + 2.50)
2.50
15.00
2.50
15.00
2.50
15.00
2.50
15.00
ns
B16 TA, BI valid to CLKOUT (setup time)
(MIN = 0.00 x B1 + 6.00)
6.00
—
6.00
—
6.00
—
6.00
—
ns
B16a TEA, KR, RETRY, CR valid to
CLKOUT (setup time) (MIN = 0.00 x
B1 + 4.5)
4.50
—
4.50
—
4.50
—
4.50
—
ns
B16b BB, BG, BR, valid to CLKOUT (setup
time) 6 (4MIN = 0.00 x B1 + 0.00)
4.00
—
4.00
—
4.00
—
4.00
—
ns
B17 CLKOUT to TA, TEA, BI, BB, BG, BR
valid (hold time) (MIN = 0.00 x B1 +
1.00 7)
1.00
—
1.00
—
1.00
—
2.00
—
ns
B17a CLKOUT to KR, RETRY, CR valid
(hold time) (MIN = 0.00 x B1 + 2.00)
2.00
—
2.00
—
2.00
—
2.00
—
ns
B18 D(0:31), DP(0:3) valid to CLKOUT
rising edge (setup time) 8 (MIN = 0.00
x B1 + 6.00)
6.00
—
6.00
—
6.00
—
6.00
—
ns
B9
Freescale Semiconductor, Inc...
40 MHz
Characteristic
CLKOUT to A(0:31), BADDR(28:30),
RD/WR, BURST, D(0:31), DP(0:3),
TSIZ(0:1), REG, RSV, AT(0:3), PTR
High-Z (MAX = 0.25 x B1 + 6.3)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
17
Bus Signal Timing
Freescale Semiconductor, Inc.
Table 7. Bus Operation Timings (continued)
33 MHz
Freescale Semiconductor, Inc...
Num
40 MHz
50 MHz
66 MHz
Characteristic
Unit
Min
Max
Min
Max
Min
Max
Min
Max
B19 CLKOUT rising edge to D(0:31),
DP(0:3) valid (hold time) 8 (MIN = 0.00
x B1 + 1.00 9)
1.00
—
1.00
—
1.00
—
2.00
—
ns
B20 D(0:31), DP(0:3) valid to CLKOUT
falling edge (setup time) 10(MIN = 0.00
x B1 + 4.00)
4.00
—
4.00
—
4.00
—
4.00
—
ns
B21 CLKOUT falling edge to D(0:31),
DP(0:3) valid (hold Time) 10 (MIN =
0.00 x B1 + 2.00)
2.00
—
2.00
—
2.00
—
2.00
—
ns
B22 CLKOUT rising edge to CS asserted
GPCM ACS = 00 (MAX = 0.25 x B1 +
6.3)
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
B22a CLKOUT falling edge to CS asserted
GPCM ACS = 10, TRLX = 0 (MAX =
0.00 x B1 + 8.00)
—
8.00
—
8.00
—
8.00
—
8.00
ns
B22b CLKOUT falling edge to CS asserted
GPCM ACS = 11, TRLX = 0, EBDF = 0
(MAX = 0.25 x B1 + 6.3)
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
B22c CLKOUT falling edge to CS asserted 10.90
GPCM ACS = 11, TRLX = 0, EBDF = 1
(MAX = 0.375 x B1 + 6.6)
18.00
10.90
18.00
7.00
14.30
5.20
12.30
ns
B23 CLKOUT rising edge to CS negated
GPCM read access, GPCM write
access ACS = 00, TRLX = 0 & CSNT =
0 (MAX = 0.00 x B1 + 8.00)
2.00
8.00
2.00
8.00
2.00
8.00
2.00
8.00
ns
B24 A(0:31) and BADDR(28:30) to CS
asserted GPCM ACS = 10, TRLX = 0
(MIN = 0.25 x B1 - 2.00)
5.60
—
4.30
—
3.00
—
1.80
—
ns
B24a A(0:31) and BADDR(28:30) to CS
asserted GPCM ACS = 11 TRLX = 0
(MIN = 0.50 x B1 - 2.00)
13.20
—
10.50
—
8.00
—
5.60
—
ns
B25 CLKOUT rising edge to OE, WE(0:3)
asserted (MAX = 0.00 x B1 + 9.00)
—
9.00
9.00
ns
B26 CLKOUT rising edge to OE negated
(MAX = 0.00 x B1 + 9.00)
2.00
9.00
2.00
9.00
2.00
9.00
2.00
9.00
ns
B27 A(0:31) and BADDR(28:30) to CS
asserted GPCM ACS = 10, TRLX = 1
(MIN = 1.25 x B1 - 2.00)
35.90
—
29.30
—
23.00
—
16.90
—
ns
B27a A(0:31) and BADDR(28:30) to CS
asserted GPCM ACS = 11, TRLX = 1
(MIN = 1.50 x B1 - 2.00)
43.50
—
35.50
—
28.00
—
20.70
—
ns
18
9.00
9.00
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Table 7. Bus Operation Timings (continued)
33 MHz
Num
50 MHz
66 MHz
Unit
Min
Max
Min
Max
Min
Max
Min
Max
—
9.00
—
9.00
—
9.00
—
9.00
ns
7.60
14.30
6.30
13.00
5.00
11.80
3.80
10.50
ns
—
14.30
—
13.00
—
11.80
—
10.50
ns
10.90
18.00
10.90
18.00
7.00
14.30
5.20
12.30
ns
—
18.00
—
18.00
—
14.30
—
12.30
ns
5.60
—
4.30
—
3.00
—
1.80
—
ns
B29a WE(0:3) negated to D(0:31), DP(0:3) 13.20
High-Z GPCM write access, TRLX = 0,
CSNT = 1, EBDF = 0 (MIN = 0.50 x B1
- 2.00)
—
10.50
—
8.00
—
5.60
—
ns
5.60
—
4.30
—
3.00
—
1.80
—
ns
13.20
B29c CS negated to D(0:31), DP(0:3)
High-Z GPCM write access, TRLX = 0,
CSNT = 1, ACS = 10, or ACS = 11
EBDF = 0 (MIN = 0.50 x B1 - 2.00)
—
10.50
—
8.00
—
5.60
—
ns
B29d WE(0:3) negated to D(0:31), DP(0:3) 43.50
High-Z GPCM write access, TRLX = 1,
CSNT = 1, EBDF = 0 (MIN = 1.50 x B1
- 2.00)
—
35.50
—
28.00
—
20.70
—
ns
43.50
B29e CS negated to D(0:31), DP(0:3)
High-Z GPCM write access, TRLX = 1,
CSNT = 1, ACS = 10, or ACS = 11
EBDF = 0 (MIN = 1.50 x B1 - 2.00)
—
35.50
—
28.00
—
20.70
—
ns
B28 CLKOUT rising edge to WE(0:3)
negated GPCM write access CSNT
= 0 (MAX = 0.00 x B1 + 9.00)
B28a CLKOUT falling edge to WE(0:3)
negated GPCM write access
TRLX = 0, 1, CSNT = 1, EBDF = 0
(MAX = 0.25 x B1 + 6.80)
Freescale Semiconductor, Inc...
40 MHz
Characteristic
B28b CLKOUT falling edge to CS negated
GPCM write access TRLX = 0,1,
CSNT = 1 ACS = 10 or ACS = 11,
EBDF = 0 (MAX = 0.25 x B1 + 6.80)
B28c CLKOUT falling edge to WE(0:3)
negated GPCM write access
TRLX = 0, CSNT = 1 write access
TRLX = 0,1, CSNT = 1, EBDF = 1
(MAX = 0.375 x B1 + 6.6)
B28d CLKOUT falling edge to CS negated
GPCM write access TRLX = 0,1,
CSNT = 1, ACS = 10, or ACS = 11,
EBDF = 1 (MAX = 0.375 x B1 + 6.6)
B29 WE(0:3) negated to D(0:31), DP(0:3)
High-Z GPCM write access, CSNT
= 0, EBDF = 0 (MIN = 0.25 x B1 - 2.00)
B29b CS negated to D(0:31), DP(0:3), High
Z GPCM write access, ACS = 00,
TRLX = 0,1 & CSNT = 0 (MIN = 0.25 x
B1 - 2.00)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
19
Bus Signal Timing
Freescale Semiconductor, Inc.
Table 7. Bus Operation Timings (continued)
33 MHz
Freescale Semiconductor, Inc...
Num
40 MHz
50 MHz
66 MHz
Characteristic
Unit
Min
Max
Min
Max
Min
Max
Min
Max
B29f WE(0:3) negated to D(0:31), DP(0:3)
High Z GPCM write access, TRLX = 0,
CSNT = 1, EBDF = 1 (MIN = 0.375 x
B1 - 6.30)
5.00
—
3.00
—
1.10
—
0.00
—
ns
B29g CS negated to D(0:31), DP(0:3)
High-Z GPCM write access, TRLX = 0,
CSNT = 1 ACS = 10 or ACS = 11,
EBDF = 1 (MIN = 0.375 x B1 - 6.30)
5.00
—
3.00
—
1.10
—
0.00
—
ns
B29h WE(0:3) negated to D(0:31), DP(0:3) 38.40
High Z GPCM write access, TRLX = 1,
CSNT = 1, EBDF = 1 (MIN = 0.375 x
B1 - 3.30)
—
31.10
—
24.20
—
17.50
—
ns
38.40
B29i CS negated to D(0:31), DP(0:3)
High-Z GPCM write access, TRLX = 1,
CSNT = 1, ACS = 10 or ACS = 11,
EBDF = 1 (MIN = 0.375 x B1 - 3.30)
—
31.10
—
24.20
—
17.50
—
ns
B30 CS, WE(0:3) negated to A(0:31),
BADDR(28:30) Invalid GPCM write
access 11 (MIN = 0.25 x B1 - 2.00)
5.60
—
4.30
—
3.00
—
1.80
—
ns
13.20
B30a WE(0:3) negated to A(0:31),
BADDR(28:30) Invalid GPCM, write
access, TRLX = 0, CSNT = 1, CS
negated to A(0:31) invalid GPCM write
access TRLX = 0, CSNT =1 ACS = 10,
or ACS == 11, EBDF = 0 (MIN = 0.50
x B1 - 2.00)
—
10.50
—
8.00
—
5.60
—
ns
B30b WE(0:3) negated to A(0:31) Invalid
GPCM BADDR(28:30) invalid GPCM
write access, TRLX = 1, CSNT = 1.
CS negated to A(0:31) Invalid GPCM
write access TRLX = 1, CSNT = 1,
ACS = 10, or ACS == 11 EBDF = 0
(MIN = 1.50 x B1 - 2.00)
43.50
—
35.50
—
28.00
—
20.70
—
ns
B30c WE(0:3) negated to A(0:31),
BADDR(28:30) invalid GPCM write
access, TRLX = 0, CSNT = 1.
CS negated to A(0:31) invalid GPCM
write access, TRLX = 0, CSNT = 1
ACS = 10, ACS == 11, EBDF = 1
(MIN = 0.375 x B1 - 3.00)
8.40
—
6.40
—
4.50
—
2.70
—
ns
B30d WE(0:3) negated to A(0:31),
BADDR(28:30) invalid GPCM write
access TRLX = 1, CSNT =1,
CS negated to A(0:31) invalid GPCM
write access TRLX = 1, CSNT = 1,
ACS = 10 or 11, EBDF = 1
38.67
—
31.38
—
24.50
—
17.83
—
ns
20
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Table 7. Bus Operation Timings (continued)
33 MHz
Freescale Semiconductor, Inc...
Num
40 MHz
50 MHz
66 MHz
Characteristic
Unit
Min
Max
Min
Max
Min
Max
Min
Max
B31 CLKOUT falling edge to CS valid - as
requested by control bit CST4 in the
corresponding word in the UPM
(MAX = 0.00 X B1 + 6.00)
1.50
6.00
1.50
6.00
1.50
6.00
1.50
6.00
ns
B31a CLKOUT falling edge to CS valid - as
requested by control bit CST1 in the
corresponding word in the UPM
(MAX = 0.25 x B1 + 6.80)
7.60
14.30
6.30
13.00
5.00
11.80
3.80
10.50
ns
B31b CLKOUT rising edge to CS valid - as
requested by control bit CST2 in the
corresponding word in the UPM
(MAX = 0.00 x B1 + 8.00)
1.50
8.00
1.50
8.00
1.50
8.00
1.50
8.00
ns
B31c CLKOUT rising edge to CS valid- as
requested by control bit CST3 in the
corresponding word in the UPM
(MAX = 0.25 x B1 + 6.30)
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
B31d CLKOUT falling edge to CS valid, as
requested by control bit CST1 in the
corresponding word in the UPM
EBDF = 1 (MAX = 0.375 x B1 + 6.6)
9.40
18.00
7.60
16.00
13.30
14.10
11.30
12.30
ns
B32 CLKOUT falling edge to BS valid- as
requested by control bit BST4 in the
corresponding word in the UPM
(MAX = 0.00 x B1 + 6.00)
1.50
6.00
1.50
6.00
1.50
6.00
1.50
6.00
ns
B32a CLKOUT falling edge to BS valid - as
requested by control bit BST1 in the
corresponding word in the UPM,
EBDF = 0 (MAX = 0.25 x B1 + 6.80)
7.60
14.30
6.30
13.00
5.00
11.80
3.80
10.50
ns
B32b CLKOUT rising edge to BS valid - as
requested by control bit BST2 in the
corresponding word in the UPM
(MAX = 0.00 x B1 + 8.00)
1.50
8.00
1.50
8.00
1.50
8.00
1.50
8.00
ns
B32c CLKOUT rising edge to BS valid - as
requested by control bit BST3 in the
corresponding word in the UPM
(MAX = 0.25 x B1 + 6.80)
7.60
14.30
6.30
13.00
5.00
11.80
3.80
10.50
ns
B32d CLKOUT falling edge to BS valid- as
requested by control bit BST1 in the
corresponding word in the UPM,
EBDF = 1 (MAX = 0.375 x B1 + 6.60)
9.40
18.00
7.60
16.00
13.30
14.10
11.30
12.30
ns
B33 CLKOUT falling edge to GPL valid - as
requested by control bit GxT4 in the
corresponding word in the UPM
(MAX = 0.00 x B1 + 6.00)
1.50
6.00
1.50
6.00
1.50
6.00
1.50
6.00
ns
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
21
Bus Signal Timing
Freescale Semiconductor, Inc.
Table 7. Bus Operation Timings (continued)
33 MHz
Freescale Semiconductor, Inc...
Num
40 MHz
50 MHz
66 MHz
Characteristic
Unit
Min
Max
Min
Max
Min
Max
Min
Max
B33a CLKOUT rising edge to GPL Valid - as
requested by control bit GxT3 in the
corresponding word in the UPM
(MAX = 0.25 x B1 + 6.80)
7.60
14.30
6.30
13.00
5.00
11.80
3.80
10.50
ns
B34 A(0:31), BADDR(28:30), and D(0:31)
to CS valid - as requested by control
bit CST4 in the corresponding word in
the UPM (MIN = 0.25 x B1 - 2.00)
5.60
—
4.30
—
3.00
—
1.80
—
ns
B34a A(0:31), BADDR(28:30), and D(0:31)
to CS valid - as requested by control
bit CST1 in the corresponding word in
the UPM (MIN = 0.50 x B1 - 2.00)
13.20
—
10.50
—
8.00
—
5.60
—
ns
B34b A(0:31), BADDR(28:30), and D(0:31)
to CS valid - as requested by CST2 in
the corresponding word in UPM
(MIN = 0.75 x B1 - 2.00)
20.70
—
16.70
—
13.00
—
9.40
—
ns
B35 A(0:31), BADDR(28:30) to CS valid as requested by control bit BST4 in the
corresponding word in the UPM
(MIN = 0.25 x B1 - 2.00)
5.60
—
4.30
—
3.00
—
1.80
—
ns
B35a A(0:31), BADDR(28:30), and D(0:31) 13.20
to BS valid - As Requested by BST1 in
the corresponding word in the UPM
(MIN = 0.50 x B1 - 2.00)
—
10.50
—
8.00
—
5.60
—
ns
B35b A(0:31), BADDR(28:30), and D(0:31) 20.70
to BS valid - as requested by control bit
BST2 in the corresponding word in the
UPM (MIN = 0.75 x B1 - 2.00)
—
16.70
—
13.00
—
9.40
—
ns
B36 A(0:31), BADDR(28:30), and D(0:31)
to GPL valid as requested by control
bit GxT4 in the corresponding word in
the UPM (MIN = 0.25 x B1 - 2.00)
5.60
—
4.30
—
3.00
—
1.80
—
ns
B37 UPWAIT valid to CLKOUT falling edge
12 (MIN = 0.00 x B1 + 6.00)
6.00
—
6.00
—
6.00
—
6.00
—
ns
B38 CLKOUT falling edge to UPWAIT valid
12 (MIN = 0.00 x B1 + 1.00)
1.00
—
1.00
—
1.00
—
1.00
—
ns
B39 AS valid to CLKOUT rising edge 13
(MIN = 0.00 x B1 + 7.00)
7.00
—
7.00
—
7.00
—
7.00
—
ns
B40 A(0:31), TSIZ(0:1), RD/WR, BURST,
valid to CLKOUT rising edge
(MIN = 0.00 x B1 + 7.00)
7.00
—
7.00
—
7.00
—
7.00
—
ns
B41 TS valid to CLKOUT rising edge (setup
time) (MIN = 0.00 x B1 + 7.00)
7.00
—
7.00
—
7.00
—
7.00
—
ns
22
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Table 7. Bus Operation Timings (continued)
33 MHz
Num
40 MHz
50 MHz
66 MHz
Characteristic
B42 CLKOUT rising edge to TS valid (hold
time) (MIN = 0.00 x B1 + 2.00)
B43 AS negation to memory controller
signals negation (MAX = TBD)
Unit
Min
Max
Min
Max
Min
Max
Min
Max
2.00
—
2.00
—
2.00
—
2.00
—
ns
—
TBD
—
TBD
—
TBD
—
TBD
ns
1
Phase and frequency jitter performance results are only valid if the input jitter is less than the prescribed value.
If the rate of change of the frequency of EXTAL is slow (I.e. it does not jump between the minimum and maximum
values in one cycle) or the frequency of the jitter is fast (I.e., it does not stay at an extreme value for a long time) then
the maximum allowed jitter on EXTAL can be up to 2%.
3 The timings specified in B4 and B5 are based on full strength clock.
4 The timing for BR output is relevant when the MPC862/857T/857DSL is selected to work with external bus arbiter.
The timing for BG output is relevant when the MPC862/857T/857DSL is selected to work with internal bus arbiter.
5 For part speeds above 50MHz, use 9.80ns for B11a.
6 The timing required for BR input is relevant when the MPC862/857T/857DSL is selected to work with internal bus
arbiter. The timing for BG input is relevant when the MPC862/857T/857DSL is selected to work with external bus
arbiter.
7 For part speeds above 50MHz, use 2ns for B17.
8 The D(0:31) and DP(0:3) input timings B18 and B19 refer to the rising edge of the CLKOUT in which the TA input
signal is asserted.
9 For part speeds above 50MHz, use 2ns for B19.
10 The D(0:31) and DP(0:3) input timings B20 and B21 refer to the falling edge of the CLKOUT. This timing is valid only
for read accesses controlled by chip-selects under control of the UPM in the memory controller, for data beats where
DLT3 = 1 in the UPM RAM words. (This is only the case where data is latched on the falling edge of CLKOUT.)
11 The timing B30 refers to CS when ACS = 00 and to WE(0:3) when CSNT = 0.
12 The signal UPWAIT is considered asynchronous to the CLKOUT and synchronized internally. The timings specified
in B37 and B38 are specified to enable the freeze of the UPM output signals as described in Figure 19.
13 The AS signal is considered asynchronous to the CLKOUT. The timing B39 is specified in order to allow the behavior
specified in Figure 22.
Freescale Semiconductor, Inc...
2
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
23
Freescale Semiconductor, Inc.
Bus Signal Timing
Figure 4 is the control timing diagram.
CLKOUT
2.0 V
2.0 V
0.8 V
0.8 V
A
B
Outputs
2.0 V
0.8 V
2.0 V
0.8 V
A
B
2.0 V
0.8 V
Freescale Semiconductor, Inc...
Outputs
2.0 V
0.8 V
D
C
2.0 V
0.8 V
Inputs
2.0 V
0.8 V
D
C
2.0 V
0.8 V
Inputs
2.0 V
0.8 V
Legend:
A
Maximum output delay specification.
B
Minimum output hold time.
C
Minimum input setup time specification.
D
Minimum input hold time specification.
Figure 4. Control Timing
Figure 5 provides the timing for the external clock.
CLKOUT
B1
B3
B1
B4
B2
B5
Figure 5. External Clock Timing
24
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Figure 6 provides the timing for the synchronous output signals.
CLKOUT
B8
B7
B9
Output
Signals
B8a
B7a
B9
Freescale Semiconductor, Inc...
Output
Signals
B8b
B7b
Output
Signals
Figure 6. Synchronous Output Signals Timing
Figure 7 provides the timing for the synchronous active pull-up and open-drain output signals.
CLKOUT
B13
B11
B12
TS, BB
B13a
B11a
B12a
TA, BI
B14
B15
TEA
Figure 7. Synchronous Active Pull-Up Resistor and Open-Drain Outputs
Signals Timing
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
25
Bus Signal Timing
Freescale Semiconductor, Inc.
Figure 8 provides the timing for the synchronous input signals.
CLKOUT
B16
B17
TA, BI
B16a
B17a
Freescale Semiconductor, Inc...
TEA, KR,
RETRY, CR
B16b
B17
BB, BG, BR
Figure 8. Synchronous Input Signals Timing
Figure 9 provides normal case timing for input data. It also applies to normal read accesses under the control
of the UPM in the memory controller.
CLKOUT
B16
B17
TA
B18
B19
D[0:31],
DP[0:3]
Figure 9. Input Data Timing in Normal Case
26
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Figure 10 provides the timing for the input data controlled by the UPM for data beats where DLT3 = 1 in
the UPM RAM words. (This is only the case where data is latched on the falling edge of CLKOUT.)
CLKOUT
TA
B20
Freescale Semiconductor, Inc...
B21
D[0:31],
DP[0:3]
Figure 10. Input Data Timing when Controlled by UPM in the
Memory Controller and DLT3 = 1
Figure 11 through Figure 14 provide the timing for the external bus read controlled by various GPCM
factors.
CLKOUT
B11
B12
TS
B8
A[0:31]
B22
B23
CSx
B25
B26
OE
B28
WE[0:3]
B19
B18
D[0:31],
DP[0:3]
Figure 11. External Bus Read Timing (GPCM Controlled—ACS = 00)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
27
Bus Signal Timing
Freescale Semiconductor, Inc.
CLKOUT
B11
B12
TS
B8
A[0:31]
B23
B22a
Freescale Semiconductor, Inc...
CSx
B24
B25
B26
OE
B18
B19
D[0:31],
DP[0:3]
Figure 12. External Bus Read Timing (GPCM Controlled—TRLX = 0, ACS = 10)
CLKOUT
B11
B12
TS
B8
B22b
A[0:31]
B22c
B23
CSx
B24a
B25
B26
OE
B18
B19
D[0:31],
DP[0:3]
Figure 13. External Bus Read Timing (GPCM Controlled—TRLX = 0, ACS = 11)
28
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
CLKOUT
B11
B12
TS
B8
A[0:31]
B23
B22a
Freescale Semiconductor, Inc...
CSx
B27
OE
B26
B27a
B22b B22c
B18
B19
D[0:31],
DP[0:3]
Figure 14. External Bus Read Timing (GPCM Controlled—TRLX = 1,
ACS = 10, ACS = 11)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
29
Bus Signal Timing
Freescale Semiconductor, Inc.
Figure 15 through Figure 17 provide the timing for the external bus write controlled by various GPCM
factors.
CLKOUT
B11
B12
TS
B8
B30
A[0:31]
Freescale Semiconductor, Inc...
B22
B23
CSx
B25
B28
WE[0:3]
B26
B29b
OE
B29
B8
B9
D[0:31],
DP[0:3]
Figure 15. External Bus Write Timing (GPCM Controlled—TRLX = 0,1 CSNT = 0)
30
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
CLKOUT
B11
B12
TS
B8
B30a B30c
A[0:31]
B22
B28b B28d
B23
Freescale Semiconductor, Inc...
CSx
B25
B29c B29g
WE[0:3]
B26
B29a B29f
OE
B28a B28c
B8
B9
D[0:31],
DP[0:3]
Figure 16. External Bus Write Timing (GPCM Controlled—TRLX = 0,1 CSNT = 1)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
31
Bus Signal Timing
Freescale Semiconductor, Inc.
CLKOUT
B11
B12
TS
B8
B30b B30d
A[0:31]
B22
B28b B28d
B23
Freescale Semiconductor, Inc...
CSx
B25
B29e B29i
WE[0:3]
B26
B29d B29h
OE
B29b
B8
B28a B28c
B9
D[0:31],
DP[0:3]
Figure 17. External Bus Write Timing (GPCM Controlled—TRLX = 0,1, CSNT = 1)
32
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Figure 18 provides the timing for the external bus controlled by the UPM.
CLKOUT
B8
A[0:31]
B31a
B31d
B31
B31c
B31b
Freescale Semiconductor, Inc...
CSx
B34
B34a
B34b
B32a B32d
B32
B32c
B32b
BS_A[0:3],
BS_B[0:3]
B35 B36
B35a
B33a
B35b
B33
GPL_A[0:5],
GPL_B[0:5]
Figure 18. External Bus Timing (UPM Controlled Signals)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
33
Bus Signal Timing
Freescale Semiconductor, Inc.
Figure 19 provides the timing for the asynchronous asserted UPWAIT signal controlled by the UPM.
CLKOUT
B37
UPWAIT
B38
Freescale Semiconductor, Inc...
CSx
BS_A[0:3],
BS_B[0:3]
GPL_A[0:5],
GPL_B[0:5]
Figure 19. Asynchronous UPWAIT Asserted Detection in UPM Handled
Cycles Timing
Figure 20 provides the timing for the asynchronous negated UPWAIT signal controlled by the UPM.
CLKOUT
B37
UPWAIT
B38
CSx
BS_A[0:3],
BS_B[0:3]
GPL_A[0:5],
GPL_B[0:5]
Figure 20. Asynchronous UPWAIT Negated Detection in UPM Handled
Cycles Timing
34
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Figure 21 provides the timing for the synchronous external master access controlled by the GPCM.
CLKOUT
B41
B42
TS
B40
A[0:31],
TSIZ[0:1],
R/W, BURST
Freescale Semiconductor, Inc...
B22
CSx
Figure 21. Synchronous External Master Access Timing
(GPCM Handled ACS = 00)
Figure 22 provides the timing for the asynchronous external master memory access controlled by the
GPCM.
CLKOUT
B39
AS
B40
A[0:31],
TSIZ[0:1],
R/W
B22
CSx
Figure 22. Asynchronous External Master Memory Access Timing
(GPCM Controlled—ACS = 00)
Figure 23 provides the timing for the asynchronous external master control signals negation.
AS
B43
CSx, WE[0:3],
OE, GPLx,
BS[0:3]
Figure 23. Asynchronous External Master—Control Signals Negation Timing
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
35
Bus Signal Timing
Freescale Semiconductor, Inc.
Table 8 provides interrupt timing for the MPC862/857T/857DSL.
Table 8. Interrupt Timing
All Frequencies
Num
Characteristic 1
Unit
Min
Freescale Semiconductor, Inc...
1
Max
I39
IRQx valid to CLKOUT rising edge (set up time)
6.00
ns
I40
IRQx hold time after CLKOUT
2.00
ns
I41
IRQx pulse width low
3.00
ns
I42
IRQx pulse width high
3.00
ns
I43
IRQx edge-to-edge time
4xTCLOCKOUT
—
The timings I39 and I40 describe the testing conditions under which the IRQ lines are tested when being
defined as level sensitive. The IRQ lines are synchronized internally and do not have to be asserted or
negated with reference to the CLKOUT.
The timings I41, I42, and I43 are specified to allow the correct function of the IRQ lines detection circuitry,
and has no direct relation with the total system interrupt latency that the MPC862/857T/857DSL is able to
support.
Figure 24 provides the interrupt detection timing for the external level-sensitive lines.
CLKOUT
I39
I40
IRQx
Figure 24. Interrupt Detection Timing for External Level Sensitive Lines
Figure 25 provides the interrupt detection timing for the external edge-sensitive lines.
CLKOUT
I41
I42
IRQx
I43
I43
Figure 25. Interrupt Detection Timing for External Edge Sensitive Lines
36
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Table 9 shows the PCMCIA timing for the MPC862/857T/857DSL.
Table 9. PCMCIA Timing
33 MHz
Freescale Semiconductor, Inc...
Num
40 MHz
50 MHz
66 MHz
Characteristic
Unit
Min
Max
Min
Max
Min
Max
Min
Max
A(0:31), REG valid to PCMCIA
Strobe asserted. 1 (MIN = 0.75 x
B1 - 2.00)
20.70
—
16.70
—
13.00
—
9.40
—
ns
P44
A(0:31), REG valid to ALE
negation.1 (MIN = 1.00 x B1 2.00)
28.30
—
23.00
—
18.00
—
13.20
—
ns
P45
P46
CLKOUT to REG valid (MAX =
0.25 x B1 + 8.00)
7.60
15.60
6.30
14.30
5.00
13.00
3.80
11.80
ns
P47
CLKOUT to REG Invalid. (MIN =
0.25 x B1 + 1.00)
8.60
—
7.30
—
6.00
—
4.80
—
ns
P48
CLKOUT to CE1, CE2 asserted.
(MAX = 0.25 x B1 + 8.00)
7.60
15.60
6.30
14.30
5.00
13.00
3.80
11.80
ns
P49
CLKOUT to CE1, CE2 negated.
(MAX = 0.25 x B1 + 8.00)
7.60
15.60
6.30
14.30
5.00
13.00
3.80
11.80
ns
CLKOUT to PCOE, IORD, PCWE,
IOWR assert time. (MAX = 0.00 x
B1 + 11.00)
—
11.00
—
11.00
—
11.00
—
11.00
ns
P50
CLKOUT to PCOE, IORD, PCWE,
IOWR negate time. (MAX = 0.00 x
B1 + 11.00)
2.00
11.00
2.00
11.00
2.00
11.00
2.00
11.00
ns
P51
P52
CLKOUT to ALE assert time
(MAX = 0.25 x B1 + 6.30)
7.60
13.80
6.30
12.50
5.00
11.30
3.80
10.00
ns
P53
CLKOUT to ALE negate time
(MAX = 0.25 x B1 + 8.00)
—
15.60
—
14.30
—
13.00
—
11.80
ns
P54
PCWE, IOWR negated to D(0:31)
invalid.1 (MIN = 0.25 x B1 - 2.00)
5.60
—
4.30
—
3.00
—
1.80
—
ns
WAITA and WAITB valid to
CLKOUT rising edge.1 (MIN =
0.00 x B1 + 8.00)
8.00
—
8.00
—
8.00
—
8.00
—
ns
P55
CLKOUT rising edge to WAITA
and WAITB invalid.1 (MIN = 0.00 x
B1 + 2.00)
2.00
—
2.00
—
2.00
—
2.00
—
ns
P56
1
PSST = 1. Otherwise add PSST times cycle time.
PSHT = 0. Otherwise add PSHT times cycle time.
These synchronous timings define when the WAITx signals are detected in order to freeze (or relieve) the PCMCIA
current cycle. The WAITx assertion will be effective only if it is detected 2 cycles before the PSL timer expiration. See
PCMCIA Interface in the MPC862 PowerQUICC User s Manual .
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
37
Bus Signal Timing
Freescale Semiconductor, Inc.
Figure 26 provides the PCMCIA access cycle timing for the external bus read.
CLKOUT
TS
P44
A[0:31]
P46
P45
P47
Freescale Semiconductor, Inc...
REG
P48
P49
CE1/CE2
P50
P51
P53
P52
PCOE, IORD
P52
ALE
B18
B19
D[0:31]
Figure 26. PCMCIA Access Cycles Timing External Bus Read
38
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Figure 27 provides the PCMCIA access cycle timing for the external bus write.
CLKOUT
TS
P44
A[0:31]
Freescale Semiconductor, Inc...
P46
P45
P47
REG
P48
P49
CE1/CE2
P50
P51
P53
P52
B18
B19
P54
PCOE, IOWR
P52
ALE
D[0:31]
Figure 27. PCMCIA Access Cycles Timing External Bus Write
Figure 28 provides the PCMCIA WAIT signals detection timing.
CLKOUT
P55
P56
WAITx
Figure 28. PCMCIA WAIT Signals Detection Timing
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
39
Bus Signal Timing
Freescale Semiconductor, Inc.
Table 10 shows the PCMCIA port timing for the MPC862/857T/857DSL.
Table 10. PCMCIA Port Timing
33 MHz
Freescale Semiconductor, Inc...
Num
40 MHz
50 MHz
66 MHz
Characteristic
Unit
Min
Max
Min
Max
Min
Max
Min
Max
—
19.00
—
19.00
—
19.00
—
19.00
ns
P57
CLKOUT to OPx Valid (MAX = 0.00 x
B1 + 19.00)
P58
HRESET negated to OPx drive 1
(MIN = 0.75 x B1 + 3.00)
25.70
—
21.70
—
18.00
—
14.40
—
ns
P59
IP_Xx valid to CLKOUT rising edge
(MIN = 0.00 x B1 + 5.00)
5.00
—
5.00
—
5.00
—
5.00
—
ns
P60
CLKOUT rising edge to IP_Xx invalid
(MIN = 0.00 x B1 + 1.00)
1.00
—
1.00
—
1.00
—
1.00
—
ns
1
OP2 and OP3 only.
Figure 29 provides the PCMCIA output port timing for the MPC862/857T/857DSL.
CLKOUT
P57
Output
Signals
HRESET
P58
OP2, OP3
Figure 29. PCMCIA Output Port Timing
Figure 30 provides the PCMCIA output port timing for the MPC862/857T/857DSL.
CLKOUT
P59
P60
Input
Signals
Figure 30. PCMCIA Input Port Timing
40
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Table 11 shows the debug port timing for the MPC862/857T/857DSL.
Table 11. Debug Port Timing
All Frequencies
Num
Characteristic
Unit
Freescale Semiconductor, Inc...
Min
D61
DSCK cycle time
D62
Max
3 x TCLOCKOUT
-
DSCK clock pulse width
1.25 x TCLOCKOUT
-
D63
DSCK rise and fall times
0.00
D64
DSDI input data setup time
8.00
ns
D65
DSDI data hold time
5.00
ns
D66
DSCK low to DSDO data valid
0.00
15.00
ns
D67
DSCK low to DSDO invalid
0.00
2.00
ns
3.00
ns
Figure 31 provides the input timing for the debug port clock.
DSCK
D61
D62
D61
D62
D63
D63
Figure 31. Debug Port Clock Input Timing
Figure 32 provides the timing for the debug port.
DSCK
D64
D65
DSDI
D66
D67
DSDO
Figure 32. Debug Port Timings
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
41
Bus Signal Timing
Freescale Semiconductor, Inc.
Table 12 shows the reset timing for the MPC862/857T/857DSL.
Table 12. Reset Timing
33 MHz
Freescale Semiconductor, Inc...
Num
40 MHz
50 MHz
66 MHz
Characteristic
Unit
Min
Max
Min
Max
Min
Max
Min
Max
R69
CLKOUT to HRESET high impedance
(MAX = 0.00 x B1 + 20.00)
—
20.00
—
20.00
—
20.00
—
20.00
ns
R70
CLKOUT to SRESET high impedance
(MAX = 0.00 x B1 + 20.00)
—
20.00
—
20.00
—
20.00
—
20.00
ns
R71
RSTCONF pulse width
(MIN = 17.00 x B1)
515.20
—
425.00
—
340.00
—
257.60
—
ns
R72
—
—
—
—
—
—
—
—
—
—
Configuration data to HRESET rising
edge set up time
(MIN = 15.00 x B1 + 50.00)
504.50
—
425.00
—
350.00
—
277.30
—
ns
R73
Configuration data to RSTCONF rising
edge set up time
(MIN = 0.00 x B1 + 350.00)
350.00
—
350.00
—
350.00
—
350.00
—
ns
R74
Configuration data hold time after
RSTCONF negation
(MIN = 0.00 x B1 + 0.00)
0.00
—
0.00
—
0.00
—
0.00
—
ns
R75
Configuration data hold time after
HRESET negation
(MIN = 0.00 x B1 + 0.00)
0.00
—
0.00
—
0.00
—
0.00
—
ns
R76
R77
HRESET and RSTCONF asserted to
data out drive (MAX = 0.00 x B1 + 25.00)
—
25.00
—
25.00
—
25.00
—
25.00
ns
R78
RSTCONF negated to data out high
impedance. (MAX = 0.00 x B1 + 25.00)
—
25.00
—
25.00
—
25.00
—
25.00
ns
CLKOUT of last rising edge before chip
three-states HRESET to data out high
impedance. (MAX = 0.00 x B1 + 25.00)
—
25.00
—
25.00
—
25.00
—
25.00
ns
R79
R80
DSDI, DSCK set up (MIN = 3.00 x B1)
90.90
—
75.00
—
60.00
—
45.50
—
ns
R81
DSDI, DSCK hold time
(MIN = 0.00 x B1 + 0.00)
0.00
—
0.00
—
0.00
—
0.00
—
ns
SRESET negated to CLKOUT rising
edge for DSDI and DSCK sample
(MIN = 8.00 x B1)
242.40
—
200.00
—
160.00
—
121.20
—
ns
R82
42
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Bus Signal Timing
Figure 33 shows the reset timing for the data bus configuration.
HRESET
R71
R76
RSTCONF
R73
R74
R75
Freescale Semiconductor, Inc...
D[0:31] (IN)
Figure 33. Reset Timing—Configuration from Data Bus
Figure 34 provides the reset timing for the data bus weak drive during configuration.
CLKOUT
R69
HRESET
R79
RSTCONF
R77
R78
D[0:31] (OUT)
(Weak)
Figure 34. Reset Timing—Data Bus Weak Drive during Configuration
Figure 35 provides the reset timing for the debug port configuration.
CLKOUT
R70
R82
SRESET
R80
R80
R81
R81
DSCK, DSDI
Figure 35. Reset Timing—Debug Port Configuration
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
43
Freescale Semiconductor, Inc.
IEEE 1149.1 Electrical Specifications
10
IEEE 1149.1 Electrical Specifications
Table 13 provides the JTAG timings for the MPC862/857T/857DSL shown in Figure 36 though Figure 39.
Table 13. JTAG Timing
All Frequencies
Freescale Semiconductor, Inc...
Num
Characteristic
Unit
Min
Max
J82
TCK cycle time
100.00
—
ns
J83
TCK clock pulse width measured at 1.5 V
40.00
—
ns
J84
TCK rise and fall times
0.00
10.00
ns
J85
TMS, TDI data setup time
5.00
—
ns
J86
TMS, TDI data hold time
25.00
—
ns
J87
TCK low to TDO data valid
—
27.00
ns
J88
TCK low to TDO data invalid
0.00
—
ns
J89
TCK low to TDO high impedance
—
20.00
ns
J90
TRST assert time
100.00
—
ns
J91
TRST setup time to TCK low
40.00
—
ns
J92
TCK falling edge to output valid
—
50.00
ns
J93
TCK falling edge to output valid out of high impedance
—
50.00
ns
J94
TCK falling edge to output high impedance
—
50.00
ns
J95
Boundary scan input valid to TCK rising edge
50.00
—
ns
J96
TCK rising edge to boundary scan input invalid
50.00
—
ns
TCK
J82
J83
J82
J83
J84
J84
Figure 36. JTAG Test Clock Input Timing
44
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
TCK
J85
J86
TMS, TDI
J87
J88
J89
TDO
Freescale Semiconductor, Inc...
Figure 37. JTAG Test Access Port Timing Diagram
TCK
J91
J90
TRST
Figure 38. JTAG TRST Timing Diagram
TCK
J92
J94
Output
Signals
J93
Output
Signals
J95
J96
Output
Signals
Figure 39. Boundary Scan (JTAG) Timing Diagram
11
CPM Electrical Characteristics
This section provides the AC and DC electrical specifications for the communications processor module
(CPM) of the MPC862/857T/857DSL.
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
45
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
11.1
PIP/PIO AC Electrical Specifications
Table 14 provides the PIP/PIO AC timings as shown in Figure 40 though Figure 44.
Table 14. PIP/PIO Timing
All Frequencies
Num
Freescale Semiconductor, Inc...
21
1
Characteristic
Unit
Min
Max
0
—
ns
—
clk
Data-in setup time to STBI low
2.5 –
t3 1
22
Data-in hold time to STBI high
23
STBI pulse width
1.5
—
clk
24
STBO pulse width
1 clk – 5 ns
—
ns
25
Data-out setup time to STBO low
2
—
clk
26
Data-out hold time from STBO high
5
—
clk
27
STBI low to STBO low (Rx interlock)
—
2
clk
28
STBI low to STBO high (Tx interlock)
2
—
clk
29
Data-in setup time to clock high
15
—
ns
30
Data-in hold time from clock high
7.5
—
ns
31
Clock low to data-out valid (CPU writes data, control, or direction)
—
25
ns
t3 = Specification 23
DATA-IN
21
22
23
STBI
27
24
STBO
Figure 40. PIP Rx (Interlock Mode) Timing Diagram
46
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
DATA-OUT
25
26
24
STBO
(Output)
28
23
STBI
(Input)
Freescale Semiconductor, Inc...
Figure 41. PIP Tx (Interlock Mode) Timing Diagram
DATA-IN
21
22
23
STBI
(Input)
24
STBO
(Output)
Figure 42. PIP Rx (Pulse Mode) Timing Diagram
DATA-OUT
25
26
24
STBO
(Output)
23
STBI
(Input)
Figure 43. PIP TX (Pulse Mode) Timing Diagram
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
47
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
CLKO
29
30
DATA-IN
31
DATA-OUT
Freescale Semiconductor, Inc...
Figure 44. Parallel I/O Data-In/Data-Out Timing Diagram
11.2
Port C Interrupt AC Electrical Specifications
Table 15 provides the timings for port C interrupts.
Table 15. Port C Interrupt Timing
33.34 MHz
Num
Characteristic
Unit
Min
Max
35
Port C interrupt pulse width low (edge-triggered mode)
55
—
ns
36
Port C interrupt minimum time between active edges
55
—
ns
Figure 45 shows the port C interrupt detection timing.
36
Port C
(Input)
35
Figure 45. Port C Interrupt Detection Timing
11.3
IDMA Controller AC Electrical Specifications
Table 16 provides the IDMA controller timings as shown in Figure 46 though Figure 49.
Table 16. IDMA Controller Timing
All Frequencies
Num
48
Characteristic
Unit
Min
Max
40
DREQ setup time to clock high
7
—
ns
41
DREQ hold time from clock high
3
—
ns
42
SDACK assertion delay from clock high
—
12
ns
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
Table 16. IDMA Controller Timing (continued)
All Frequencies
Num
Characteristic
Unit
Min
Max
43
SDACK negation delay from clock low
—
12
ns
44
SDACK negation delay from TA low
—
20
ns
45
SDACK negation delay from clock high
—
15
ns
46
TA assertion to falling edge of the clock setup time (applies to external TA)
7
—
ns
Freescale Semiconductor, Inc...
CLKO
(Output)
41
40
DREQ
(Input)
Figure 46. IDMA External Requests Timing Diagram
CLKO
(Output)
TS
(Output)
R/W
(Output)
42
43
DATA
46
TA
(Input)
SDACK
Figure 47. SDACK Timing Diagram—Peripheral Write, Externally-Generated TA
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
49
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
CLKO
(Output)
TS
(Output)
R/W
(Output)
42
44
Freescale Semiconductor, Inc...
DATA
TA
(Output)
SDACK
Figure 48. SDACK Timing Diagram—Peripheral Write, Internally-Generated TA
CLKO
(Output)
TS
(Output)
R/W
(Output)
42
45
DATA
TA
(Output)
SDACK
Figure 49. SDACK Timing Diagram—Peripheral Read, Internally-Generated TA
50
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
11.4
Baud Rate Generator AC Electrical Specifications
Table 17 provides the baud rate generator timings as shown in Figure 50.
Table 17. Baud Rate Generator Timing
All Frequencies
Freescale Semiconductor, Inc...
Num
Characteristic
Unit
Min
Max
50
BRGO rise and fall time
—
10
ns
51
BRGO duty cycle
40
60
%
52
BRGO cycle
40
—
ns
50
50
BRGOX
51
51
52
Figure 50. Baud Rate Generator Timing Diagram
11.5
Timer AC Electrical Specifications
Table 18 provides the general-purpose timer timings as shown in Figure 51.
Table 18. Timer Timing
All Frequencies
Num
Characteristic
Unit
Min
Max
61
TIN/TGATE rise and fall time
10
—
ns
62
TIN/TGATE low time
1
—
clk
63
TIN/TGATE high time
2
—
clk
64
TIN/TGATE cycle time
3
—
clk
65
CLKO low to TOUT valid
3
25
ns
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
51
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
CLKO
60
61
63
62
TIN/TGATE
(Input)
61
64
65
TOUT
(Output)
Freescale Semiconductor, Inc...
Figure 51. CPM General-Purpose Timers Timing Diagram
11.6
Serial Interface AC Electrical Specifications
Table 19 provides the serial interface timings as shown in Figure 52 though Figure 56.
Table 19. SI Timing
All Frequencies
Num
Characteristic
Unit
Min
Max
—
SYNCCLK/2.5
MHz
70
L1RCLK, L1TCLK frequency (DSC = 0) 1, 2
71
L1RCLK, L1TCLK width low (DSC = 0) 2
P + 10
—
ns
71a
L1RCLK, L1TCLK width high (DSC = 0) 3
P + 10
—
ns
72
L1TXD, L1ST(1–4), L1RQ, L1CLKO rise/fall time
—
15.00
ns
73
L1RSYNC, L1TSYNC valid to L1CLK edge (SYNC setup time)
20.00
—
ns
74
L1CLK edge to L1RSYNC, L1TSYNC, invalid (SYNC hold
time)
35.00
—
ns
—
15.00
ns
75
L1RSYNC, L1TSYNC rise/fall time
76
L1RXD valid to L1CLK edge (L1RXD setup time)
17.00
—
ns
77
L1CLK edge to L1RXD invalid (L1RXD hold time)
13.00
—
ns
10.00
45.00
ns
78
L1CLK edge to L1ST(1–4) valid
4
78A
L1SYNC valid to L1ST(1–4) valid
10.00
45.00
ns
79
L1CLK edge to L1ST(1–4) invalid
10.00
45.00
ns
80
L1CLK edge to L1TXD valid
10.00
55.00
ns
10.00
55.00
ns
80A
52
L1TSYNC valid to L1TXD valid
4
81
L1CLK edge to L1TXD high impedance
0.00
42.00
ns
82
L1RCLK, L1TCLK frequency (DSC =1)
—
16.00 or
SYNCCLK/2
MHz
83
L1RCLK, L1TCLK width low (DSC =1)
P + 10
—
ns
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
Table 19. SI Timing (continued)
All Frequencies
Freescale Semiconductor, Inc...
Num
Characteristic
Unit
Min
Max
83a
L1RCLK, L1TCLK width high (DSC = 1)3
P + 10
—
ns
84
L1CLK edge to L1CLKO valid (DSC = 1)
—
30.00
ns
1.00
—
L1TCL
K
L1TSYNC4
85
L1RQ valid before falling edge of
86
L1GR setup time2
42.00
—
ns
87
L1GR hold time
42.00
—
ns
88
L1CLK edge to L1SYNC valid (FSD = 00) CNT = 0000, BYT =
0, DSC = 0)
—
0.00
ns
1
The ratio SyncCLK/L1RCLK must be greater than 2.5/1.
These specs are valid for IDL mode only.
3 Where P = 1/CLKOUT. Thus for a 25-MHz CLKO1 rate, P = 40 ns.
4 These strobes and TxD on the first bit of the frame become valid after L1CLK edge or L1SYNC, whichever is later.
2
L1RCLK
(FE=0, CE=0)
(Input)
71
70
71a
72
L1RCLK
(FE=1, CE=1)
(Input)
RFSD=1
75
L1RSYNC
(Input)
73
74
L1RXD
(Input)
77
BIT0
76
78
79
L1ST(4-1)
(Output)
Figure 52. SI Receive Timing Diagram with Normal Clocking (DSC = 0)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
53
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
L1RCLK
(FE=1, CE=1)
(Input)
72
83a
82
L1RCLK
(FE=0, CE=0)
(Input)
RFSD=1
75
L1RSYNC
(Input)
Freescale Semiconductor, Inc...
73
74
L1RXD
(Input)
77
BIT0
76
78
79
L1ST(4-1)
(Output)
84
L1CLKO
(Output)
Figure 53. SI Receive Timing with Double-Speed Clocking (DSC = 1)
54
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
L1TCLK
(FE=0, CE=0)
(Input)
71
70
72
L1TCLK
(FE=1, CE=1)
(Input)
73
TFSD=0
75
L1TSYNC
(Input)
Freescale Semiconductor, Inc...
74
80a
L1TXD
(Output)
81
BIT0
80
78
79
L1ST(4-1)
(Output)
Figure 54. SI Transmit Timing Diagram (DSC = 0)
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
55
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
L1RCLK
(FE=0, CE=0)
(Input)
72
83a
82
L1RCLK
(FE=1, CE=1)
(Input)
TFSD=0
75
L1RSYNC
(Input)
Freescale Semiconductor, Inc...
73
74
L1TXD
(Output)
81
BIT0
80
78a
79
L1ST(4-1)
(Output)
78
84
L1CLKO
(Output)
Figure 55. SI Transmit Timing with Double Speed Clocking (DSC = 1)
56
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
L1GR
(Input)
L1RQ
(Output)
L1ST(4-1)
(Output)
L1RXD
(Input)
L1TXD
(Output)
L1RSYNC
(Input)
L1RCLK
(Input)
80
77
74
2
3
5
72
B15 B14 B13
71
71
4
86
85
76
6
87
B17 B16 B15 B14 B13
B17 B16
73
1
8
78
B12 B11 B10
B12 B11 B10
7
9
D1
D1
10
A
A
11
14
15
16
17
18
B25 B24 B23 B22 B21 B20
13
B27 B26 B25 B24 B23 B22 B21 B20
81
B27 B26
12
Freescale Semiconductor, Inc...
19
D2
D2
20
M
M
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
Figure 56. IDL Timing
57
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
11.7
SCC in NMSI Mode Electrical Specifications
Table 20 provides the NMSI external clock timing.
Table 20. NMSI External Clock Timing
All Frequencies
Freescale Semiconductor, Inc...
Num
1
2
Characteristic
Unit
Min
Max
1/SYNCCLK
—
ns
1/SYNCCLK +5
—
ns
—
15.00
ns
100
RCLK1 and TCLK1 width high 1
101
RCLK1 and TCLK1 width low
102
RCLK1 and TCLK1 rise/fall time
103
TXD1 active delay (from TCLK1 falling edge)
0.00
50.00
ns
104
RTS1 active/inactive delay (from TCLK1 falling edge)
0.00
50.00
ns
105
CTS1 setup time to TCLK1 rising edge
5.00
—
ns
106
RXD1 setup time to RCLK1 rising edge
5.00
—
ns
5.00
—
ns
5.00
—
ns
edge 2
107
RXD1 hold time from RCLK1 rising
108
CD1 setup Time to RCLK1 rising edge
The ratios SyncCLK/RCLK1 and SyncCLK/TCLK1 must be greater than or equal to 2.25/1.
Also applies to CD and CTS hold time when they are used as an external sync signal.
Table 21 provides the NMSI internal clock timing.
Table 21. NMSI Internal Clock Timing
All Frequencies
Num
1
2
Characteristic
Unit
Min
Max
100
RCLK1 and TCLK1 frequency 1
0.00
SYNCCLK/3
MHz
102
RCLK1 and TCLK1 rise/fall time
—
—
ns
103
TXD1 active delay (from TCLK1 falling edge)
0.00
30.00
ns
104
RTS1 active/inactive delay (from TCLK1 falling edge)
0.00
30.00
ns
105
CTS1 setup time to TCLK1 rising edge
40.00
—
ns
106
RXD1 setup time to RCLK1 rising edge
40.00
—
ns
107
RXD1 hold time from RCLK1 rising edge 2
0.00
—
ns
108
CD1 setup time to RCLK1 rising edge
40.00
—
ns
The ratios SyncCLK/RCLK1 and SyncCLK/TCLK1 must be greater or equal to 3/1.
Also applies to CD and CTS hold time when they are used as an external sync signals.
58
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
Figure 57 through Figure 59 show the NMSI timings.
RCLK1
102
102
101
106
100
RxD1
(Input)
107
108
Freescale Semiconductor, Inc...
CD1
(Input)
107
CD1
(SYNC Input)
Figure 57. SCC NMSI Receive Timing Diagram
TCLK1
102
102
101
100
TxD1
(Output)
103
105
RTS1
(Output)
104
104
CTS1
(Input)
107
CTS1
(SYNC Input)
Figure 58. SCC NMSI Transmit Timing Diagram
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
59
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
TCLK1
102
102
101
100
TxD1
(Output)
103
RTS1
(Output)
Freescale Semiconductor, Inc...
104
107
104
105
CTS1
(Echo Input)
Figure 59. HDLC Bus Timing Diagram
11.8
Ethernet Electrical Specifications
Table 22 provides the Ethernet timings as shown in Figure 60 though Figure 64.
Table 22. Ethernet Timing
All Frequencies
Num
Characteristic
Unit
Min
Max
120
CLSN width high
40
—
ns
121
RCLK1 rise/fall time
—
15
ns
122
RCLK1 width low
40
—
ns
123
RCLK1 clock period 1
80
120
ns
124
RXD1 setup time
20
—
ns
125
RXD1 hold time
5
—
ns
126
RENA active delay (from RCLK1 rising edge of the last data bit)
10
—
ns
127
RENA width low
100
—
ns
128
TCLK1 rise/fall time
—
15
ns
129
TCLK1 width low
40
—
ns
99
101
ns
period1
130
TCLK1 clock
131
TXD1 active delay (from TCLK1 rising edge)
10
50
ns
132
TXD1 inactive delay (from TCLK1 rising edge)
10
50
ns
133
TENA active delay (from TCLK1 rising edge)
10
50
ns
134
TENA inactive delay (from TCLK1 rising edge)
10
50
ns
60
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
Table 22. Ethernet Timing (continued)
All Frequencies
Num
1
Freescale Semiconductor, Inc...
2
Characteristic
Unit
Min
Max
135
RSTRT active delay (from TCLK1 falling edge)
10
50
ns
136
RSTRT inactive delay (from TCLK1 falling edge)
10
50
ns
137
REJECT width low
1
—
CLK
138
CLKO1 low to SDACK asserted 2
—
20
ns
139
2
—
20
ns
CLKO1 low to SDACK negated
The ratios SyncCLK/RCLK1 and SyncCLK/TCLK1 must be greater or equal to 2/1.
SDACK is asserted whenever the SDMA writes the incoming frame DA into memory.
CLSN(CTS1)
(Input)
120
Figure 60. Ethernet Collision Timing Diagram
RCLK1
121
121
124
123
RxD1
(Input)
Last Bit
125
126
127
RENA(CD1)
(Input)
Figure 61. Ethernet Receive Timing Diagram
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
61
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
TCLK1
128
128
129
131
121
TxD1
(Output)
132
133
134
Freescale Semiconductor, Inc...
TENA(RTS1)
(Input)
RENA(CD1)
(Input)
(NOTE 2)
NOTES:
1. Transmit clock invert (TCI) bit in GSMR is set.
2. If RENA is deasserted before TENA, or RENA is not asserted at all during transmit, then the
CSL bit is set in the buffer descriptor at the end of the frame transmission.
Figure 62. Ethernet Transmit Timing Diagram
RCLK1
RxD1
(Input)
0
1
1
BIT1
Start Frame Delimiter
BIT2
136
125
RSTRT
(Output)
Figure 63. CAM Interface Receive Start Timing Diagram
REJECT
137
Figure 64. CAM Interface REJECT Timing Diagram
62
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
11.9
SMC Transparent AC Electrical Specifications
Table 23 provides the SMC transparent timings as shown in Figure 65.
Table 23. SMC Transparent Timing
All Frequencies
Freescale Semiconductor, Inc...
Num
1
Characteristic
Unit
Min
Max
150
SMCLK clock period 1
100
—
ns
151
SMCLK width low
50
—
ns
151A
SMCLK width high
50
—
ns
152
SMCLK rise/fall time
—
15
ns
153
SMTXD active delay (from SMCLK falling edge)
10
50
ns
154
SMRXD/SMSYNC setup time
20
—
ns
155
RXD1/SMSYNC hold time
5
—
ns
SyncCLK must be at least twice as fast as SMCLK.
SMCLK
152
152
151
151A
150
SMTXD
(Output)
NOTE 1
154
153
155
SMSYNC
154
155
SMRXD
(Input)
NOTE:
1. This delay is equal to an integer number of character-length clocks.
Figure 65. SMC Transparent Timing Diagram
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
63
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
11.10 SPI Master AC Electrical Specifications
Table 24 provides the SPI master timings as shown in Figure 66 though Figure 67.
Table 24. SPI Master Timing
All Frequencies
Freescale Semiconductor, Inc...
Num
Characteristic
Unit
Min
Max
160
MASTER cycle time
4
1024
tcyc
161
MASTER clock (SCK) high or low time
2
512
tcyc
162
MASTER data setup time (inputs)
15
—
ns
163
Master data hold time (inputs)
0
—
ns
164
Master data valid (after SCK edge)
—
10
ns
165
Master data hold time (outputs)
0
—
ns
166
Rise time output
—
15
ns
167
Fall time output
—
15
ns
SPICLK
(CI=0)
(Output)
161
167
161
166
160
SPICLK
(CI=1)
(Output)
163
167
162
SPIMISO
(Input)
msb
166
Data
165
lsb
msb
164
167
SPIMOSI
(Output)
msb
166
Data
lsb
msb
Figure 66. SPI Master (CP = 0) Timing Diagram
64
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
SPICLK
(CI=0)
(Output)
161
167
166
161
160
SPICLK
(CI=1)
(Output)
163
167
162
SPIMISO
(Input)
166
msb
Data
Freescale Semiconductor, Inc...
165
lsb
msb
164
167
SPIMOSI
(Output)
166
msb
Data
lsb
msb
Figure 67. SPI Master (CP = 1) Timing Diagram
11.11 SPI Slave AC Electrical Specifications
Table 25 provides the SPI slave timings as shown in Figure 68 though Figure 69.
Table 25. SPI Slave Timing
All Frequencies
Num
Characteristic
Unit
Min
Max
170
Slave cycle time
2
—
tcyc
171
Slave enable lead time
15
—
ns
172
Slave enable lag time
15
—
ns
173
Slave clock (SPICLK) high or low time
1
—
tcyc
174
Slave sequential transfer delay (does not require deselect)
1
—
tcyc
175
Slave data setup time (inputs)
20
—
ns
176
Slave data hold time (inputs)
20
—
ns
177
Slave access time
—
50
ns
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
65
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
SPISEL
(Input)
172
171
174
SPICLK
(CI=0)
(Input)
173
182
173
181
170
SPICLK
(CI=1)
(Input)
Freescale Semiconductor, Inc...
177
181
182
180
SPIMISO
(Output)
msb
178
Data
175
lsb
msb
179
176
SPIMOSI
(Input)
Undef
181 182
msb
Data
lsb
msb
Figure 68. SPI Slave (CP = 0) Timing Diagram
SPISEL
(Input)
172
171
174
170
SPICLK
(CI=0)
(Input)
173
182
181
173
181
SPICLK
(CI=1)
(Input)
177
182
180
SPIMISO
(Output)
Undef
msb
175
lsb
msb
179
176
SPIMOSI
(Input)
Data
178
msb
181 182
Data
lsb
msb
Figure 69. SPI Slave (CP = 1) Timing Diagram
66
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
CPM Electrical Characteristics
11.12 I2C AC Electrical Specifications
Table 26 provides the I2C (SCL < 100 KHz) timings.
Table 26. I2C Timing (SCL < 100 KHZ)
All Frequencies
Num
Freescale Semiconductor, Inc...
200
1
Characteristic
Unit
SCL clock frequency (slave)
(master) 1
Min
Max
0
100
kHz
1.5
100
kHz
200
SCL clock frequency
202
Bus free time between transmissions
4.7
—
µs
203
Low period of SCL
4.7
—
µs
204
High period of SCL
4.0
—
µs
205
Start condition setup time
4.7
—
µs
206
Start condition hold time
4.0
—
µs
207
Data hold time
0
—
µs
208
Data setup time
250
—
ns
209
SDL/SCL rise time
—
1
µs
210
SDL/SCL fall time
—
300
ns
211
Stop condition setup time
4.7
—
µs
SCL frequency is given by SCL = BRGCLK_frequency / ((BRG register + 3) * pre_scaler * 2).
The ratio SyncClk/(BRGCLK/pre_scaler) must be greater or equal to 4/1.
Table 27 provides the I2C (SCL > 100 kHz) timings.
Table 27. I2C Timing (SCL > 100 kHZ)
All Frequencies
Num
200
1
Characteristic
SCL clock frequency (slave)
(master) 1
Expression
Unit
Min
Max
fSCL
0
BRGCLK/48
Hz
fSCL
BRGCLK/16512
BRGCLK/48
Hz
200
SCL clock frequency
202
Bus free time between transmissions
—
1/(2.2 * fSCL)
—
s
203
Low period of SCL
—
1/(2.2 * fSCL)
—
s
204
High period of SCL
—
1/(2.2 * fSCL)
—
s
205
Start condition setup time
—
1/(2.2 * fSCL)
—
s
206
Start condition hold time
—
1/(2.2 * fSCL)
—
s
207
Data hold time
—
0
—
s
208
Data setup time
—
1/(40 * fSCL)
—
s
209
SDL/SCL rise time
—
—
1/(10 * fSCL)
s
210
SDL/SCL fall time
—
—
1/(33 * fSCL)
s
211
Stop condition setup time
—
1/2(2.2 * fSCL)
—
s
SCL frequency is given by SCL = BrgClk_frequency / ((BRG register + 3) * pre_scaler * 2).
The ratio SyncClk/(Brg_Clk/pre_scaler) must be greater or equal to 4/1.
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
67
Freescale Semiconductor, Inc.
UTOPIA AC Electrical Specifications
Figure 70 shows the I2C bus timing.
SDA
202
203
204
205
208
207
SCL
206
209
210
211
Freescale Semiconductor, Inc...
Figure 70. I2C Bus Timing Diagram
12
UTOPIA AC Electrical Specifications
Table 28 shows the AC electrical specifications for the UTOPIA interface.
Table 28. UTOPIA AC Electrical Specifications
Num
U1
Signal Characteristic
UtpClk rise/fall time (Internal clock option)
Direction
Min
Output
Duty cycle
50
Frequency
U1a
UtpClk rise/fall time (external clock option)
Input
Duty cycle
40
Frequency
68
U2
RxEnb and TxEnb active delay
U3
Max
Unit
4 ns
ns
50
%
33
MHz
4ns
ns
60
%
33
MHz
16 ns
ns
Output
2 ns
UTPB, SOC, Rxclav and Txclav setup time
Input
4 ns
ns
U4
UTPB, SOC, Rxclav and Txclav hold time
Input
1 ns
ns
U5
UTPB, SOC active delay (and PHREQ and PHSEL active
delay in MPHY mode)
Output
2 ns
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
16 ns
ns
MOTOROLA
Freescale Semiconductor, Inc.
FEC Electrical Characteristics
Figure 71 shows signal timings during UTOPIA receive operations.
U1
U1
UtpClk
U5
PHREQn
U3
3
RxClav
HighZ at MPHY
HighZ at MPHY
U2
2
RxEnb
Freescale Semiconductor, Inc...
U4
4
UTPB
SOC
U3
3
U4
4
Figure 71. UTOPIA Receive Timing
Figure 72 shows signal timings during UTOPIA transmit operations.
U1
U1
1
UtpClk
U5
5
PHSELn
U3
3
U4
4
TxClav
HighZ at MPHY
HighZ at MPHY
U2
2
TxEnb
UTPB
SOC
U5
5
Figure 72. UTOPIA Transmit Timing
13
FEC Electrical Characteristics
This section provides the AC electrical specifications for the Fast Ethernet controller (FEC). Note that the
timing specifications for the MII signals are independent of system clock frequency (part speed
designation). Furthermore, MII signals use TTL signal levels compatible with devices operating at either
5.0 or 3.3 V.
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
69
Freescale Semiconductor, Inc.
FEC Electrical Characteristics
13.1
MII Receive Signal Timing (MII_RXD[3:0], MII_RX_DV,
MII_RX_ER, MII_RX_CLK)
The receiver functions correctly up to a MII_RX_CLK maximum frequency of 25MHz +1%. There is no
minimum frequency requirement. In addition, the processor clock frequency must exceed the
MII_RX_CLK frequency - 1%.
Table 29 provides information on the MII receive signal timing.
Freescale Semiconductor, Inc...
Table 29. MII Receive Signal Timing
Num
Characteristic
Min
Max
Unit
M1
MII_RXD[3:0], MII_RX_DV, MII_RX_ER to MII_RX_CLK setup
5
—
ns
M2
MII_RX_CLK to MII_RXD[3:0], MII_RX_DV, MII_RX_ER hold
5
—
ns
M3
MII_RX_CLK pulse width high
35%
65%
MII_RX_CLK period
M4
MII_RX_CLK pulse width low
35%
65%
MII_RX_CLK period
Figure 73 shows MII receive signal timing.
M3
MII_RX_CLK (input)
M4
MII_RXD[3:0] (inputs)
MII_RX_DV
MII_RX_ER
M1
M2
Figure 73. MII Receive Signal Timing Diagram
13.2
MII Transmit Signal Timing (MII_TXD[3:0], MII_TX_EN,
MII_TX_ER, MII_TX_CLK)
The transmitter functions correctly up to a MII_TX_CLK maximum frequency of 25 MHz +1%. There is
no minimum frequency requirement. In addition, the processor clock frequency must exceed the
MII_TX_CLK frequency - 1%.
Table 30 provides information on the MII transmit signal timing.
Table 30. MII Transmit Signal Timing
Num
70
Characteristic
Min
Max
Unit
ns
M5
MII_TX_CLK to MII_TXD[3:0], MII_TX_EN, MII_TX_ER invalid
5
—
M6
MII_TX_CLK to MII_TXD[3:0], MII_TX_EN, MII_TX_ER valid
—
25
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
FEC Electrical Characteristics
Table 30. MII Transmit Signal Timing (continued)
Num
Characteristic
Min
Max
Unit
M7
MII_TX_CLK pulse width high
35%
65%
MII_TX_CLK period
M8
MII_TX_CLK pulse width low
35%
65%
MII_TX_CLK period
Figure 74 shows the MII transmit signal timing diagram.
M7
Freescale Semiconductor, Inc...
MII_TX_CLK (input)
M5
M8
MII_TXD[3:0] (outputs)
MII_TX_EN
MII_TX_ER
M6
Figure 74. MII Transmit Signal Timing Diagram
13.3
MII Async Inputs Signal Timing (MII_CRS, MII_COL)
Table 31 provides information on the MII async inputs signal timing.
Table 31. MII Async Inputs Signal Timing
Num
M9
Characteristic
MII_CRS, MII_COL minimum pulse width
Min
Max
Unit
1.5
—
MII_TX_CLK period
Figure 75 shows the MII asynchronous inputs signal timing diagram.
MII_CRS, MII_COL
M9
Figure 75. MII Async Inputs Timing Diagram
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
71
Freescale Semiconductor, Inc.
FEC Electrical Characteristics
13.4
MII Serial Management Channel Timing (MII_MDIO,
MII_MDC)
Table 32 provides information on the MII serial management channel signal timing. The FEC functions
correctly with a maximum MDC frequency in excess of 2.5 MHz. The exact upper bound is under
investigation.
Table 32. MII Serial Management Channel Timing
Freescale Semiconductor, Inc...
Num
Characteristic
Min
Max
Unit
M10
MII_MDC falling edge to MII_MDIO output invalid (minimum
propagation delay)
0
—
ns
M11
MII_MDC falling edge to MII_MDIO output valid (max prop delay)
—
25
ns
M12
MII_MDIO (input) to MII_MDC rising edge setup
10
—
ns
M13
MII_MDIO (input) to MII_MDC rising edge hold
0
—
ns
M14
MII_MDC pulse width high
40%
60%
MII_MDC period
M15
MII_MDC pulse width low
40%
60%
MII_MDC period
Figure 76 shows the MII serial management channel timing diagram.
M14
MM15
MII_MDC (output)
M10
MII_MDIO (output)
M11
MII_MDIO (input)
M12
M13
Figure 76. MII Serial Management Channel Timing Diagram
72
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
14
Mechanical Data and Ordering Information
Table 33 provides information on the MPC862/857T/857DSL derivative devices.
Table 33. MPC862/857T/857DSL Derivatives
Freescale Semiconductor, Inc...
Cache Size
Number
of
SCCs 1
Ethernet
Support
Multi-Channel
HDLC Support
ATM Support
MPC862T
Four
10/100 Mbps
Yes
MPC862P
Four
10/100 Mbps
MPC857T
One (SCC1)
MPC857DSL
One (SCC1)
Device
1
Instruction
Data
Yes
4 Kbytes
4 Kbytes
Yes
Yes
16 Kbytes
8 Kbytes
10/100 Mbps
Yes
Yes
4 Kbytes
4 Kbytes
10/100 Mbps
No
Up to 4 addresses
4 Kbytes
4 Kbytes
Serial communications controller (SCC)
Table 34 identifies the packages and operating frequencies orderable for the MPC862/857T/857DSL
derivative devices.
Table 34. MPC862/857T/857DSL Package/Frequency Orderable
Package Type
Plastic ball grid array
(ZP suffix)
Plastic ball grid array
(CZP suffix)
1
MOTOROLA
Temperature (Tj)
Frequency (MHz)
0°C to 95°C
50
XPC862PZP50B
XPC862TZP50B
XPC857TZP50B
XPC857DSLZP50B
66
XPC862PZP66B
XPC862TZP66B
XPC857TZP66B
XPC857DSLZP66B
80
XPC862PZP80B
XPC862TZP80B
XPC857TZP80B
100
XPC862PZP100B
XPC862TZP100B
XPC857TZP100B
66 1
XPC862PCZP66B
XPC857TCZP66B
-40°C to 115°C
Order Number
Additional extended temperature devices can be made available at 50MHz, 66MHz, and
80MHz
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
73
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
14.1
.Pin
Assignments
Figure 77 shows the top view pinout of the PBGA package. For additional information, see the MPC862
PowerQUICC Family User s Manual.
NOTE: This is the top view of the device.
W
PD10
PD8
PD3
PD9
PD6
PA0
PB14 PD15
PD4
PA1
PC5
PC4
PC6
PA2
PB15
PD12
PA4
PB17
PA3
VDDL
PB19
PA5
PB18
PB16
HRESET TEXP EXTCLK EXTAL
PA7
PC8
PA6
PC7
MODCK2 BADDR28 BADDR29 VDDL
PB22
PC9
PA8
PB20
PC10
PA9
PB23
PB21
PC11
PB24
PA10
PB25
IRQ7
D0
D4
D1
D2
D3
D5
VDDL
D6
D7
D29
DP2 CLKOUT IPA3
M_Tx_EN IRQ0 D13
D27
D10
D14
D18
D20
D24
D28
DP1
DP3
DP0
N/C VSSSYN1
D23
D11
D16
D19
D21
D26
D30
IPA5
IPA4
IPA2
N/C VSSSYN
D17
D9
D15
D22
D25
D31
IPA6
IPA0
IPA1
IPA7
XFC VDDSYN
V
PD14
PD13
U
PD5
IRQ1
D8
Freescale Semiconductor, Inc...
T
PD11
PD7
VDDH D12
R
VDDH WAIT_B WAIT_A PORESET KAPWR
VDDH
P
GND
GND
VDDL RSTCONF SRESET XTAL
N
M
L
OP0
AS
OP1 MODCK1
K
GND
BADDR30 IPB6 ALEA
IRQ4
J
IPB5
IPB1
IPB2
ALEB
M_COL IRQ2
IPB0
IPB7
IPB4
IPB3
H
VDDL M_MDIO TDI
TCK
TRST
TMS
TDO
PA11
PB26
PC12
PA12
VDDL
PB27
PC13
PA13
PB29
PB28
PC14
PA14
PC15
A8
N/C
N/C
A15
A19
A25
PB30
PA15
PB31
A3
A9
A12
A16
A20
A24
A26
TSIZ1 BSA1
A0
A1
A4
A6
A10
A13
A17
A21
A23
A22
TSIZ0 BSA3 M_CRS WE2 GPLA2 CS5
A2
A5
A7
A11
A14
A27
A29
A30
A28
A31
18
17
16
15
14
13
12
11
10
9
G
GND
GND
BR
IRQ6
VDDL
TS
CS3
BI
F
VDDH
VDDH
IRQ3 BURST
E
BG
BB
D
A18
BSA0 GPLA0
N/C
CS6
CS2 GPLA5 BDIP
TEA
C
WE0 GPLA1 GPLA3 CS7
CS0
TA
GPLA4
CE1A
WR
GPLB4
B
A
19
VDDL BSA2
8
7
WE1
WE3
CS4
CE2A
CS1
6
5
4
3
2
1
Figure 77. Pinout of the PBGA Package
74
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35 contains a list of the MPC862 input and output signals and shows multiplexing and pin
assignments.
Table 35. Pin Assignments
Freescale Semiconductor, Inc...
Name
Pin Number
Type
A[0:31]
B19, B18, A18, C16, B17, A17, B16, A16, D15, C15, B15, A15, C14, Bidirectional
B14, A14, D12, C13, B13, D9, D11, C12, B12, B10, B11, C11, D10, Three-state
C10, A13, A10, A12, A11, A9
TSIZ0
REG
B9
Bidirectional
Three-state
TSIZ1
C9
Bidirectional
Three-state
RD/WR
B2
Bidirectional
Three-state
BURST
F1
Bidirectional
Three-state
BDIP
GPL_B5
D2
Output
TS
F3
Bidirectional
Active Pull-up
TA
C2
Bidirectional
Active Pull-up
TEA
D1
Open-drain
BI
E3
Bidirectional
Active Pull-up
IRQ2
RSV
H3
Bidirectional
Three-state
IRQ4
KR
RETRY
SPKROUT
K1
Bidirectional
Three-state
CR
IRQ3
F2
Input
D[0:31]
W14, W12, W11, W10, W13, W9, W7, W6, U13, T11, V11, U11, T13, Bidirectional
V13, V10, T10, U10, T12, V9, U9, V8, U8, T9, U12, V7, T8, U7, V12, Three-state
V6, W5, U6, T7
DP0
IRQ3
V3
Bidirectional
Three-state
DP1
IRQ4
V5
Bidirectional
Three-state
DP2
IRQ5
W4
Bidirectional
Three-state
DP3
IRQ6
V4
Bidirectional
Three-state
BR
G4
Bidirectional
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
75
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
BG
E2
Bidirectional
BB
E1
Bidirectional
Active Pull-up
FRZ
IRQ6
G3
Bidirectional
IRQ0
V14
Input
IRQ1
U14
Input
M_TX_CLK
IRQ7
W15
Input
CS[0:5]
C3, A2, D4, E4, A4, B4
Output
CS6
CE1_B
D5
Output
CS7
CE2_B
C4
Output
WE0
BS_B0
IORD
C7
Output
WE1
BS_B1
IOWR
A6
Output
WE2
BS_B2
PCOE
B6
Output
WE3
BS_B3
PCWE
A5
Output
BS_A[0:3]
D8, C8, A7, B8
Output
GPL_A0
GPL_B0
D7
Output
OE
GPL_A1
GPL_B1
C6
Output
GPL_A[2:3]
GPL_B[2:3]
CS[2–3]
B5, C5
Output
UPWAITA
GPL_A4
C1
Bidirectional
UPWAITB
GPL_B4
B1
Bidirectional
GPL_A5
D3
Output
PORESET
R2
Input
76
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
RSTCONF
P3
Input
HRESET
N4
Open-drain
SRESET
P2
Open-drain
XTAL
P1
Analog Output
EXTAL
N1
Analog Input (3.3 V only)
XFC
T2
Analog Input
CLKOUT
W3
Output
EXTCLK
N2
Input (3.3 V only)
TEXP
N3
Output
ALE_A
MII-TXD1
K2
Output
CE1_A
MII-TXD2
B3
Output
CE2_A
MII-TXD3
A3
Output
WAIT_A
SOC_Split2
R3
Input
WAIT_B
R4
Input
IP_A0
UTPB_Split02
MII-RXD3
T5
Input
IP_A1
UTPB_Split12
MII-RXD2
T4
Input
IP_A2
IOIS16_A
UTPB_Split22
MII-RXD1
U3
Input
IP_A3
UTPB_Split32
MII-RXD0
W2
Input
IP_A4
UTPB_Split42
MII-RXCLK
U4
Input
IP_A5
UTPB_Split52
MII-RXERR
U5
Input
IP_A6
UTPB_Split62
MII-TXERR
T6
Input
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
77
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
IP_A7
UTPB_Split72
MII-RXDV
T3
Input
ALE_B
DSCK/AT1
J1
Bidirectional
Three-state
IP_B[0:1]
IWP[0:1]
VFLS[0:1]
H2, J3
Bidirectional
IP_B2
IOIS16_B
AT2
J2
Bidirectional
Three-state
IP_B3
IWP2
VF2
G1
Bidirectional
IP_B4
LWP0
VF0
G2
Bidirectional
IP_B5
LWP1
VF1
J4
Bidirectional
IP_B6
DSDI
AT0
K3
Bidirectional
Three-state
IP_B7
PTR
AT3
H1
Bidirectional
Three-state
OP0
MII-TXD0
UtpClk_Split2
L4
Bidirectional
OP1
L2
Output
OP2
MODCK1
STS
L1
Bidirectional
OP3
MODCK2
DSDO
M4
Bidirectional
BADDR30
REG
K4
Output
BADDR[28:29]
M3, M2
Output
AS
L3
Input
PA15
RXD1
RXD4
C18
Bidirectional
78
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
PA14
TXD1
TXD4
D17
Bidirectional
(Optional: Open-drain)
PA13
RXD2
E17
Bidirectional
PA12
TXD2
F17
Bidirectional
(Optional: Open-drain)
PA11
L1TXDB
RXD3
G16
Bidirectional
(Optional: Open-drain)
PA10
L1RXDB
TXD3
J17
Bidirectional
(Optional: Open-drain)
PA9
L1TXDA
K18
Bidirectional
(Optional: Open-drain)
PA8
L1RXDA
TXD4
L17
Bidirectional
(Optional: Open-drain)
PA7
CLK1
L1RCLKA
BRGO1
TIN1
M19
Bidirectional
PA6
CLK2
TOUT1
M17
Bidirectional
PA5
CLK3
L1TCLKA
BRGO2
TIN2
N18
Bidirectional
PA4
CLK4
TOUT2
P19
Bidirectional
PA3
CLK5
BRGO3
TIN3
P17
Bidirectional
PA2
CLK6
TOUT3
L1RCLKB
R18
Bidirectional
RXD4
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
79
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
PA1
CLK7
BRGO4
TIN4
T19
Bidirectional
PA0
CLK8
TOUT4
L1TCLKB
U19
Bidirectional
PB31
SPISEL
REJECT1
C17
Bidirectional
(Optional: Open-drain)
PB30
SPICLK
RSTRT2
C19
Bidirectional
(Optional: Open-drain)
PB29
SPIMOSI
E16
Bidirectional
(Optional: Open-drain)
PB28
SPIMISO
BRGO4
D19
Bidirectional
(Optional: Open-drain)
PB27
I2CSDA
BRGO1
E19
Bidirectional
(Optional: Open-drain)
PB26
I2CSCL
BRGO2
F19
Bidirectional
(Optional: Open-drain)
PB25
RXADDR32
SMTXD1
J16
Bidirectional
(Optional: Open-drain)
PB24
TXADDR32
SMRXD1
J18
Bidirectional
(Optional: Open-drain)
PB23
TXADDR22
SDACK1
SMSYN1
K17
Bidirectional
(Optional: Open-drain)
PB22
TXADDR42
SDACK2
SMSYN2
L19
Bidirectional
(Optional: Open-drain)
PB21
SMTXD2
L1CLKOB
PHSEL1 1
TXADDR1 2
K16
Bidirectional
(Optional: Open-drain)
80
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
PB20
SMRXD2
L1CLKOA
PHSEL01
TXADDR02
L16
Bidirectional
(Optional: Open-drain)
PB19
RTS1
L1ST1
N19
Bidirectional
(Optional: Open-drain)
PB18
RXADDR42
RTS2
L1ST2
N17
Bidirectional
(Optional: Open-drain)
PB17
L1RQb
L1ST3
RTS3
PHREQ11
RXADDR12
P18
Bidirectional
(Optional: Open-drain)
PB16
L1RQa
L1ST4
RTS4
PHREQ01
RXADDR02
N16
Bidirectional
(Optional: Open-drain)
PB15
BRGO3
TxClav
R17
Bidirectional
PB14
RXADDR22
RSTRT1
U18
Bidirectional
PC15
DREQ0
RTS1
L1ST1
RxClav
D16
Bidirectional
PC14
DREQ1
RTS2
L1ST2
D18
Bidirectional
PC13
L1RQb
L1ST3
RTS3
E18
Bidirectional
PC12
L1RQa
L1ST4
RTS4
F18
Bidirectional
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
81
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
PC11
CTS1
J19
Bidirectional
PC10
CD1
TGATE1
K19
Bidirectional
PC9
CTS2
L18
Bidirectional
PC8
CD2
TGATE2
M18
Bidirectional
PC7
CTS3
L1TSYNCB
SDACK2
M16
Bidirectional
PC6
CD3
L1RSYNCB
R19
Bidirectional
PC5
CTS4
L1TSYNCA
SDACK1
T18
Bidirectional
PC4
CD4
L1RSYNCA
T17
Bidirectional
PD15
L1TSYNCA
MII-RXD3
UTPB0
U17
Bidirectional
PD14
L1RSYNCA
MII-RXD2
UTPB1
V19
Bidirectional
PD13
L1TSYNCB
MII-RXD1
UTPB2
V18
Bidirectional
PD12
L1RSYNCB
MII-MDC
UTPB3
R16
Bidirectional
PD11
RXD3
MII-TXERR
RXENB
T16
Bidirectional
82
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
PD10
TXD3
MII-RXD0
TXENB
W18
Bidirectional
PD9
RXD4
MII-TXD0
UTPCLK
V17
Bidirectional
PD8
TXD4
MII-MDC
MII-RXCLK
W17
Bidirectional
PD7
RTS3
MII-RXERR
UTPB4
T15
Bidirectional
PD6
RTS4
MII-RXDV
UTPB5
V16
Bidirectional
PD5
REJECT2
MII-TXD3
UTPB6
U15
Bidirectional
PD4
REJECT3
MII-TXD2
UTPB7
U16
Bidirectional
PD3
REJECT4
MII-TXD1
SOC
W16
Bidirectional
TMS
G18
Input
TDI
DSDI
H17
Input
TCK
DSCK
H16
Input
TRST
G19
Input
TDO
DSDO
G17
Output
M_CRS
B7
Input
M_MDIO
H18
Bidirectional
M_TXEN
V15
Output
M_COL
H4
Input
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
83
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
Table 35. Pin Assignments (continued)
Freescale Semiconductor, Inc...
Name
Pin Number
Type
KAPWR
R1
GND
F6, F7, F8, F9, F10, F11, F12, F13, F14, G6, G7, G8, G9, G10, G11, Power
G12, G13, G14, H6, H7, H8, H9, H10, H11, H12, H13, H14, J6, J7,
J8, J9, J10, J11, J12, J13, J14, K6, K7, K8, K9, K10, K11, K12, K13,
K14, L6, L7, L8, L9, L10, L11, L12, L13, L14, M6, M7, M8, M9, M10,
M11, M12, M13, M14, N6, N7, N8, N9, N10, N11, N12, N13, N14,
P6, P7, P8, P9, P10, P11, P12, P13, P14
VDDL
A8, M1, W8, H19, F4, F16, P4, P16
Power
VDDH
E5, E6, E7, E8, E9, E10, E11, E12, E13, E14, E15, F5, F15, G5,
G15, H5, H15, J5, J15, K5, K15, L5, L15, M5, M15, N5, N15, P5,
P15, R5, R6, R7, R8, R9, R10, R11, R12, R13, R14, R15, T14
Power
N/C
D6, D13, D14, U2, V2
No-connect
1
2
Power
Classic SAR mode only
ESAR mode only
14.2
Mechanical Dimensions of the PBGA Package
For more information on the printed circuit board layout of the PBGA package, including thermal via design
and suggested pad layout, please refer to Plastic Ball Grid Array Application Note (order number:
AN1231/D) available from your local Motorola sales office. Figure 78 shows the mechanical dimensions of
the PBGA package.
84
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Mechanical Data and Ordering Information
4X
0.2
D
C
0.2 C
A
0.25 C
0.35 C
E2
E
Freescale Semiconductor, Inc...
D2
B
TOP VIEW
A2
A3
A1
A
D1
18X e
W
V
U
T
R
P
N
M
L
K
J
H
G
F
E
D
C
B
A
E1
1 3 5 7 9 11 13 15 17 19
2 4 6 8 10 12 14 16 18
BOTTOM VIEW
357X
SIDE VIEW
NOTES:
1. Dimensions and tolerancing per ASME Y14.5M,
1994.
2. Dimensions in millimeters.
3. Dimension b is the maximum solder ball diameter
measured parallel to datum C.
b
0.3 M C A B
0.15 M C
DIM
A
A1
A2
A3
b
D
D1
D2
e
E
E1
E2
MILLIMETERS
MIN
MAX
--2.05
0.50
0.70
0.95
1.35
0.70
0.90
0.60
0.90
25.00 BSC
22.86 BSC
22.40
22.60
1.27 BSC
25.00 BSC
22.86 BSC
22.40
22.60
Case No. 1103-01
Figure 78. Mechanical Dimensions and Bottom Surface Nomenclature
of the PBGA Package
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
85
Freescale Semiconductor, Inc.
Document Revision History
15
Document Revision History
Table 36 lists significant changes between revisions of this document.
Table 36. Document Revision History
Date
0
2001
0.1
9/2001
Change extended temperature from 95 to 105
0.2
11/2001
Revised for new template, changed Table 7 B23 max value @ 66 MHz from 2 ns to 8 ns.
0.3
4/2002
• Timing modified and equations added, for Rev. A and B devices.
• Modified power numbers and temperature ranges. Added ESAR UTOPIA timing.
1.0
9/2002
•
•
•
•
•
•
•
1.1
5/2003
Changed SPI Master Timing Specs. 162 and 164
1.2
8/2003
• Changed B28a through B28d and B29b to show that TRLX can be 0 or 1.
• Non-technical reformatting
Freescale Semiconductor, Inc...
Rev. No.
86
Substantive Changes
Initial revision
Specification changed to include the MPC857T and MPC857DSL.
Changed maximum operating frequency from 80 MHz to 100 MHz.
Removed MPC862DP, DT, and SR derivatives and part numbers.
Corrected power dissipation numbers.
Changed UTOPIA maximum frequency from 50 MHz to 33 MHz.
Changed part number ordering information to Rev. B devices only.
To maximum ratings for temperature, added frequency ranges.
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Document Revision History
Freescale Semiconductor, Inc...
THIS PAGE INTENTIONALLY LEFT BLANK
MOTOROLA
MPC862/857T/857DSL Hardware Specifications
For More Information On This Product,
Go to: www.freescale.com
87
Freescale Semiconductor, Inc.
HOW TO REACH US:
USA/EUROPE/LOCATIONS NOT LISTED:
Motorola Literature Distribution
P.O. Box 5405, Denver, Colorado 80217
1-480-768-2130
(800) 521-6274
JAPAN:
Freescale Semiconductor, Inc...
Motorola Japan Ltd.
SPS, Technical Information Center
3-20-1, Minami-Azabu Minato-ku
Tokyo 106-8573 Japan
81-3-3440-3569
Information in this document is provided solely to enable system and software implementers to use
Motorola products. There are no express or implied copyright licenses granted hereunder to design
ASIA/PACIFIC:
or fabricate any integrated circuits or integrated circuits based on the information in this document.
Motorola Semiconductors H.K. Ltd.
Silicon Harbour Centre, 2 Dai King Street
Tai Po Industrial Estate, Tai Po, N.T., Hong Kong
852-26668334
Motorola reserves the right to make changes without further notice to any products herein.
Motorola makes no warranty, representation or guarantee regarding the suitability of its products
for any particular purpose, nor does Motorola assume any liability arising out of the application or
use of any product or circuit, and specifically disclaims any and all liability, including without
TECHNICAL INFORMATION CENTER:
limitation consequential or incidental damages. “Typical” parameters which may be provided in
(800) 521-6274
Motorola data sheets and/or specifications can and do vary in different applications and actual
HOME PAGE:
performance may vary over time. All operating parameters, including “Typicals” must be validated
for each customer application by customer’s technical experts. Motorola does not convey any
www.motorola.com/semiconductors
license under its patent rights nor the rights of others. Motorola products are not designed,
intended, or authorized for use as components in systems intended for surgical implant into the
body, or other applications intended to support or sustain life, or for any other application in which
the failure of the Motorola product could create a situation where personal injury or death may
occur. Should Buyer purchase or use Motorola products for any such unintended or unauthorized
application, Buyer shall indemnify and hold Motorola and its officers, employees, subsidiaries,
affiliates, and distributors harmless against all claims, costs, damages, and expenses, and
reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death
associated with such unintended or unauthorized use, even if such claim alleges that Motorola was
negligent regarding the design or manufacture of the part.
Motorola and the Stylized M Logo are registered in the U.S. Patent and Trademark Office.
digital dna is a trademark of Motorola, Inc. The described product contains a PowerPC processor
core. The PowerPC name is a trademark of IBM Corp. and used under license. All other product
or service names are the property of their respective owners. Motorola, Inc. is an Equal
Opportunity/Affirmative Action Employer.
© Motorola, Inc. 2003
MPC862EC/D
For More Information On This Product,
Go to: www.freescale.com