XA-C3 Datasheet, PDF(61/68 Page) NXP Semiconductors – XA 16-bit microcontroller family 32K/1024 OTP CAN transport layer controller 1 UART, 1 SPI Port, CAN 2.0B, 32 CAN ID Filters, transport layer co-proce

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XA-C3 Datasheet, PDF (61/68 Pages) NXP Semiconductors – XA 16-bit microcontroller family 32K/1024 OTP CAN transport layer controller 1 UART, 1 SPI Port, CAN 2.0B, 32 CAN ID Filters, transport layer co-proce

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Philips Semiconductors

XA 16-bit microcontroller family

32K/1024 OTP CAN transport layer controller

1 UART, 1 SPI Port, CAN 2.0B, 32 CAN ID filters, transport layer co-processor

Preliminary specification

XA-C3

must be readable by the processor as an MMR. If the processor is

about to put the part into powerâdown mode, it must read this bit

first to determine if it is safe to do so. There is no need for the

processor to read this bit prior to entering idle mode. The core is free

to go into idle mode whenever it chooses. The CAN/CTL module will

follow if and when it is ready. All of the logic required to implement

everything discussed in this section will be in the CCB.

MEMORY INTERFACE UNIT

General Description

The XA-C3 memory interface (MIF) unit provides interfaces to

generic memory devices such as SRAM, flash, and EPROM. The

timing of memory cycles, including different strobe widths, is

programmable by software.

MIF arbitrates between memory accesses from the XA core and

from the DMA unit associated with the CAN/CTL function. It also

provides access to the onâchip Memory Mapped Registers (MMRs)

and the onâchip message buffer RAM (XRAM).

Summary of features

D Supports generic memory including SRAM, flash, and EPROM.

D Programmable timing.

D Supports wait states.

D Static 16-bit bus sizing.

D Arbitrates between CPU and DMA access.

Segment xy in Data

Memory Space (DS = xy)

xyFFFFh

D Relocatable Memory Mapped Register (MMR) access for

CAN/CTL related configuration and data.

Memory Mapped Registers (MMRs)

The XA-C3 has several hundred bytes of memory mapped

control/status registers (MMRs). These registers are mapped to the

main data memory space. A 4KByte space is reserved from the data

memory space for memory mapped registers (MMRs).

The base address of the MMR space is programmed by software. It

can be placed anywhere within the entire 16 MByte data memory

space supported by the XA architecture, other than at the very

bottom of memory (address 000000h) where it would conflict with

the onâchip DATA RAM (Scratch Pad). The 4K MMR space will

always start at a 4K boundary.

The base address of the MMR space is determined by the contents

of Special Function Registers MRBL and MRBH, as shown in Table

6 on page 11. Any address asserted by the XA whose twelve most

significant bits match the concatenation MRBH[7:0] MRBL[7:4] will

be automatically routed to the onâchip MMR bus.

The reset values for MRBH and MRBL are 0Fh and F0h

respectively. Therefore, after a reset the MMR space is mapped to

the uppermost 4K bytes of Data Segment 0Fh, but access to MMRs

is disabled. The first 512 Bytes (offset 000h â 1FFh) of MMR Space

are the Message Object Registers (eight per Message Object) for

objects n = 0 â 31, as shown in Figure

4K bytes

MMR

Space

a23

a16 a15

a8 a7

MRBH[7:0]

MRBL[7:4]0000

00h

xy0000h

Figure 43. Formation of the MMR Base Address

SU01340

2000 Jan 25

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