MPC564EVB Freescale Semiconductor, MPC564EVB Datasheet - Page 902

MPC564EVB

Manufacturer Part Number

MPC564EVB

Description

KIT EVAL FOR MPC561/562/563/564

Manufacturer

Freescale Semiconductor

Type

Microcontrollerr

Datasheets

1.MPC564EVB.pdf (98 pages)

2.MPC564EVB.pdf (1420 pages)

Specifications of MPC564EVB

Contents

Module Board, Installation Guide, Power Supply, Cable, Software and more

Processor To Be Evaluated

MPC56x

Data Bus Width

32 bit

Interface Type

RS-232, Ethernet

For Use With/related Products

MPC561, 562, 563, 564

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Current page: 902 of 1420
Download datasheet (11Mb)

CALRAM Operation

22.4.5

Stop Operation

The low power stop mode for this module is entered by setting the disable bit (DIS) in the CRAMMCR

When the disable bit (DIS) is cleared, the module returns to normal function.

22.4.6

Overlay Mode Operation

For a microcontroller used as a controller for an engine (or other electromechanical device), various

parameters stored in the Flash memory may need to be changed in order to properly tune (calibrate) the

engine. Because Flash memory may not be readily programmed during normal operation of an embedded

controller, portions of the CALRAM array can be overlayed onto the U-bus Flash memory. By allowing

the CALRAM module to overlay portions of Flash memory, parameters normally stored in the Flash may

be tweaked and changed with a development tool both during normal operation and prior to programming

a final, more precise version of the Flash memory.

The overlay is for read-only data and does not affect instruction fetches from the Flash. The data for any

L-bus address which falls in the overlay region of the U-bus Flash will be driven by the CALRAM on the

L-bus. The CALRAM also indicates to the L2U to block the data from the Flash to be driven onto the

L-bus. As far as the RCPU core is concerned, the timing of data coming from the CALRAM appears to be

the same as that from the Flash.

22.4.6.1

Overlay Mode Configuration

Each CALRAM module contains eight overlay regions, each of which is 512 bytes long as shown in

Figure

22-4. All overlay regions of a module are contiguous and each starts at the least significant address

of the region and can increment all the way up to 512 bytes as shown in

Figure

22-5. As described in

section

Section 22.5.2, “CALRAM Region Base Address Registers

(CRAM_RBAx)”, CRAM_RBAx

registers allow the programming of the base addresses RBA[11:29] of the U-bus Flash regions and the

RGN_SIZE[0:4] to be overlaid. Note that each region can also be individually disabled by writing 0000 to

RGN_SIZE[0:3]. If the programmed base address is not naturally aligned with respect to the RGN_SIZE

field, the least significant bits of the base address fields can be considered 0’s in order to make the starting

address naturally aligned. In an RBA register, RGN_SIZE[0:3] ={0101} select the size to be 128 bytes,

and even if CRAM_RBAx [25:29] are not all 0’s, they will be considered as 0’s so that the address

becomes 128-byte naturally aligned.

MPC561/MPC563 Reference Manual, Rev. 1.2

22-6

Freescale Semiconductor

MPC564EVB Freescale Semiconductor, MPC564EVB Datasheet - Page 902

MPC564EVB

Specifications of MPC564EVB

Related parts for MPC564EVB