PSD813F2-A-70J STMicroelectronics, PSD813F2-A-70J Datasheet - Page 47
PSD813F2-A-70J
Manufacturer Part Number
PSD813F2-A-70J
Description
Manufacturer
STMicroelectronics
Datasheet
1.PSD813F2-A-70J.pdf
(128 pages)
Specifications of PSD813F2-A-70J
Operating Temperature (max)
70C
Operating Temperature (min)
0C
Operating Temperature Classification
Commercial
Package Type
PLCC
Mounting
Surface Mount
Pin Count
52
Lead Free Status / RoHS Status
Compliant
PSD8XXFX
14
14.1
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
Decode PLD
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 machines, 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
The Turbo Bit in PSD
The PLDs in the PSD can minimize power consumption by switching off when inputs remain
unchanged for an extended time of about 70ns. Resetting the Turbo Bit to '0' (Bit 3 of
PMMR0) automatically places the PLDs into standby if no inputs are changing. Turning the
Turbo mode off increases propagation delays while reducing power consumption. See
Section 17: Power management
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 15.
MCU address bus
MCU control signals
Reset
Power-down
Port A input macrocells
Port B input macrocells
Port C input macrocells
Port D inputs
Table
DPLD and CPLD inputs
(DPLD), and
Input source
15.
(1)
Section 14.3: Complex PLD
Doc ID 7833 Rev 7
on how to set the Turbo Bit.
CNTL2-CNTL0
Input name
PC7-PC0
PD2-PD0
PB7-PB0
PA7-PA0
A15-A0
PDN
RST
(CPLD).
Figure 12
shows the
Section 14.2:
Number of
signals
16
3
1
1
8
8
8
3
47/128
PLDS
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