PSD834F2-15M STMicroelectronics, PSD834F2-15M Datasheet - Page 27

PSD834F2-15M

Manufacturer Part Number

PSD834F2-15M

Description

Manufacturer

STMicroelectronics

Datasheet

1.PSD834F2-15M.pdf (95 pages)

Specifications of PSD834F2-15M

Operating Temperature (max)

70C

Operating Temperature (min)

Operating Temperature Classification

Commercial

Package Type

PQFP

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Compliant

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PLDS

The PLDs bring programmable logic functionality

to the PSD. After specifying the logic for the PLDs

using the PSDabel tool in PSDsoft Express, the

logic is programmed into the device and available

upon Power-up.

The PSD contains two PLDs: the Decode PLD

(DPLD), and the Complex PLD (CPLD). The PLDs

are briefly discussed in the next few paragraphs,

and in more detail in the section entitled “Decode

PLD (DPLD)”, on page 29, and the section entitled

“Complex PLD (CPLD)”, also on page 30. Figure

10 shows the configuration of the PLDs.

The DPLD performs address decoding for Select

signals for internal components, such as memory,

registers, and I/O ports.

The CPLD can be used for logic functions, such as

loadable counters and shift registers, state ma-

chines, and encoding and decoding logic. These

logic functions can be constructed using the 16

Output Macrocells (OMC), 24 Input Macrocells

(IMC), and the AND Array. The CPLD can also be

used to generate External Chip Select (ECS0-

ECS2) signals.

The AND Array is used to form product terms.

These product terms are specified using PSDabel.

An Input Bus consisting of 73 signals is connected

to the PLDs. The signals are shown in Table 12.

The Turbo Bit in PSD

The PLDs in the PSD can minimize power con-

sumption by switching off when inputs remain un-

changed for an extended time of about 70ns.

Resetting the Turbo Bit to '0' (Bit 3 of PMMR0) au-

tomatically places the PLDs into standby if no in-

puts are changing. Turning the Turbo mode off

increases propagation delays while reducing pow-

er consumption. See the section entitled “POWER

MANAGEMENT”, on page 56, on how to set the

Turbo Bit.

Additionally, five bits are available in PMMR2 to

block MCU control signals from entering the PLDs.

This reduces power consumption and can be used

only when these MCU control signals are not used

in PLD logic equations.

Each of the two PLDs has unique characteristics

suited for its applications. They are described in

the following sections.

Table 12. DPLD and CPLD Inputs

Note: 1. The address inputs are A19-A4 in 80C51XA mode.

MCU Address Bus

MCU Control Signals

Reset

Power-down

Port A Input

Macrocells

Port B Input

Macrocells

Port C Input

Macrocells

Port D Inputs

Page Register

Macrocell AB

Feedback

Macrocell BC

Feedback

Secondary Flash

memory Program

Status Bit

Input Source

A15-A0

CNTL2-CNTL0

RST

PDN

PA7-PA0

PB7-PB0

PC7-PC0

PD2-PD0

PGR7-PGR0

MCELLAB.FB7-

FB0

MCELLBC.FB7-

FB0

Ready/Busy

Input Name

PSD834F2V

Number

Signals

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PSD834F2-15M STMicroelectronics, PSD834F2-15M Datasheet - Page 27

PSD834F2-15M

Specifications of PSD834F2-15M

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