MPC8313ZQADDC Freescale Semiconductor, MPC8313ZQADDC Datasheet - Page 490

MPC8313ZQADDC

Manufacturer Part Number

MPC8313ZQADDC

Description

Microprocessors - MPU 8313 REV2.2 PB NO ENC

Manufacturer

Freescale Semiconductor

Datasheet

1.MPC8313CZQADDC.pdf (1214 pages)

Specifications of MPC8313ZQADDC

Processor Series

MPC8313

Core

e300

Data Bus Width

16 bit

Maximum Clock Frequency

133 MHz

Program Memory Size

16 KB

Data Ram Size

16 KB

Interface Type

I2C

Mounting Style

SMD/SMT

Package / Case

PBGA

Number Of Programmable I/os

Number Of Timers

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Enhanced Local Bus Controller

latch uses this signal to capture the address and provide it to the address pins of the memory or peripheral

device. If the eLBC is not used in multiplexed mode, the 26 LSBs of the address are provided by LA[0:25],

unlatched, to the address pins of the memory or peripheral device. When LALE is negated, LAD then

serves as the (bi-directional) data bus for the access. Any address phase initiates the assertion of LALE,

which has a programmable duration of between 1 and 4 bus clock cycles.

To ensure adequate hold time on the external address latch, LALE negates earlier than the address changes

on LAD during address phases. By default, LALE negates earlier by 2 platform clock period. For example,

if the platform clock is operating at 66.6 MHz, then 3 ns of address hold time is introduced. However, at

higher frequencies, the duration of the shortened LALE pulse may not meet the minimum latch enable

pulse width specifications of some latches. In such cases, setting LBCR[AHD] = 1 increases the LALE

pulse width by 1 platform clock cycle, but decreases the address hold time by the same amount. If both

longer hold time and longer LALE pulse duration are needed, then the address phase can be extended using

the ORn[EAD] and LCRR[EADC] fields, and the LBCR[AHD] bit can be left at 0. However, this will add

latency to all address tenures.

The frequency of LALE assertion varies across the three memory controllers:

In general, when using the GPCM controller it is not necessary to use LA if a sufficiently wide latch is

used to capture the entire address during LALE phases. The UPMs may require LA if the eLBC is

generating its own burst address sequence.

To illustrate how a large transaction is handled by the eLBC,

GPCM performing a 32-byte write starting at address 0x5420. Note that during each of the 32 assertions

of LALE, LA[21:25] exactly mirror LAD[27:31], but during data phases, only LAD[0:7] is driven with

valid data.

10-42

•

For GPCM, every assertion of LCS

asserts prior to each such access. For example, GPCM driving an 8-bit port would assert LALE and

LCS

For FCM, LALE asserts prior to each multi-command operation sequence, but LALE can be

ignored on NAND Flash EEPROM accesses as the signal does not enable address latching in such

devices. The value on the LAD and LA pins during LALE assertion is driven low-impedance, but

otherwise not defined for FCM banks.

In the case of UPM, the frequency of LALE assertion depends on how the UPM RAM is

programmed. UPM single accesses typically assert LALE once, upon commencement, but it is

possible to program UPM to assert LALE several times, and to change the values of LA

without LALE being involved.

32 times in order to satisfy a 32-byte cache line transfer.

MPC8313E PowerQUICC™ II Pro Integrated Processor Family Reference Manual, Rev. 2

is considered an independent access, and accordingly, LALE

Figure 10-30

shows eLBC signals for the

Freescale Semiconductor

with and

MPC8313ZQADDC Freescale Semiconductor, MPC8313ZQADDC Datasheet - Page 490

MPC8313ZQADDC

Specifications of MPC8313ZQADDC

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