UPSD3212A Datasheet, PDF(93/163 Page) STMicroelectronics – Flash Programmable System Devices with 8032 MCU with USB and Programmable Logic

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UPSD3212A Datasheet, PDF (93/163 Pages) STMicroelectronics – Flash Programmable System Devices with 8032 MCU with USB and Programmable Logic

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uPSD3212A, uPSD3212C, uPSD3212CV

PSD MODULE DETAILED OPERATION

As shown in Figure 15., page 27, the PSD MOD-

ULE consists of five major types of functional

blocks:

â Memory Block

â PLD Blocks

â I/O Ports

â Power Management Unit (PMU)

â JTAG Interface

The functions of each block are described in the

following sections. Many of the blocks perform

multiple functions, and are user configurable.

MEMORY BLOCKS

The PSD MODULE has the following memory

blocks:

â Primary Flash memory

â Secondary Flash memory

â SRAM

The Memory Select signals for these blocks origi-

nate from the Decode PLD (DPLD) and are user-

defined in PSDsoft Express.

Primary Flash Memory and Secondary Flash

memory Description

The primary Flash memory is divided into 4 sec-

tors (16KBytes each). The secondary Flash mem-

ory is divided into 2 sectors (8KBytes each). Each

sector of either memory block can be separately

protected from Program and Erase cycles.

Flash memory may be erased on a sector-by-sec-

tor basis. Flash sector erasure may be suspended

while data is read from other sectors of the block

and then resumed after reading.

During a Program or Erase cycle in Flash memory,

the status can be output on Ready/Busy (PC3).

This pin is set up using PSDsoft Express Configu-

ration.

Memory Block Select Signals

The DPLD generates the Select signals for all the

internal memory blocks (see PLDs, page 106).

Each of the eight sectors of the primary Flash

memory has a Select signal (FS0-FS3) which can

contain up to three product terms. Each of the 2

sectors of the secondary Flash memory has a Se-

lect signal (CSBOOT0-CSBOOT1) which can con-

tain up to three product terms. Having three

product terms for each Select signal allows a given

sector to be mapped in Program or Data space.

Ready/Busy (PC3). This signal can be used to

output the Ready/Busy status of the Flash memo-

ry. The output on Ready/Busy (PC3) is a 0 (Busy)

when Flash memory is being written to, or when

Flash memory is being erased. The output is a 1

(Ready) when no WRITE or Erase cycle is in

progress.

Memory Operation. The primary Flash memory

and secondary Flash memory are addressed

through the MCU Bus. The MCU can access these

memories in one of two ways:

â The MCU can execute a typical bus WRITE or

READ operation.

â The MCU can execute a specific Flash

memory instruction that consists of several

WRITE and READ operations. This involves

writing specific data patterns to special

addresses within the Flash memory to invoke

an embedded algorithm. These instructions

are summarized in Table 82.

Typically, the MCU can read Flash memory using

READ operations, just as it would read a ROM de-

vice. However, Flash memory can only be altered

using specific Erase and Program instructions. For

example, the MCU cannot write a single byte di-

rectly to Flash memory as it would write a byte to

RAM. To program a byte into Flash memory, the

MCU must execute a Program instruction, then

test the status of the Program cycle. This status

test is achieved by a READ operation or polling

Ready/Busy (PC3).

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