CY8C5466AXI-064 Cypress Semiconductor Corp, CY8C5466AXI-064 Datasheet - Page 40
CY8C5466AXI-064
Manufacturer Part Number
CY8C5466AXI-064
Description
Manufacturer
Cypress Semiconductor Corp
Datasheet
1.CY8C5466AXI-064.pdf
(105 pages)
Specifications of CY8C5466AXI-064
Lead Free Status / Rohs Status
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Part Number:
CY8C5466AXI-064
Manufacturer:
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Quantity:
10 000
7.4.1 I/O Port Routing
There are a total of 20 DSI routes to a typical 8-bit I/O port, 16
for data and four for drive strength control.
When an I/O pin is connected to the routing, there are two
primary connections available, an input and an output. In
conjunction with drive strength control, this can implement a
bidirectional I/O pin. A data output signal has the option to be
single synchronized (pipelined) and a data input signal has the
option to be double synchronized. The synchronization clock is
the system clock (see
are synchronized as this is required if the CPU interacts with the
signal or any signal derived from it. Asynchronous inputs have
rare uses. An example of this is a feed through of combinational
PLD logic from input pins to output pins.
Figure 7-15. I/O Pin Synchronization Routing
Figure 7-16. I/O Pin Output Connectivity
Document Number: 001-66238 Rev. *A
DO
DI
PIN 0
DO
8 IO Data Output Connections from the
UDB Array Digital System Interface
PIN1
DO
PIN2
DO
Figure
PIN3
DO
Port i
6-1). Normally all inputs from pins
PIN4
DO
PIN5
DO
PIN6
DO
PRELIMINARY
PIN7
DO
There are four more DSI connections to a given I/O port to
implement dynamic output enable control of pins. This
connectivity gives a range of options, from fully ganged 8-bits
controlled by one signal, to up to four individually controlled pins.
The output enable signal is useful for creating tri-state
bidirectional pins and buses.
Figure 7-17. I/O Pin Output Enable Connectivity
7.5 CAN
The CAN peripheral is a fully functional Controller Area Network
(CAN) supporting communication baud rates up to 1 Mbps. The
CAN controller implements the CAN2.0A and CAN2.0B
specifications as defined in the Bosch specification and
conforms to the ISO-11898-1 standard. The CAN protocol was
originally designed for automotive applications with a focus on a
high level of fault detection. This ensures high communication
reliability at a low cost. Because of its success in automotive
applications, CAN is used as a standard communication protocol
for motion oriented machine control networks (CANOpen) and
factory automation applications (DeviceNet). The CAN controller
features allow the efficient implementation of higher level
protocols without affecting the performance of the
microcontroller CPU. Full configuration support is provided in
PSoC Creator.
4 IO Control Signal Connections from
UDB Array Digital System Interface
PIN 0
PSoC
OE
PIN1
OE
®
5: CY8C54 Family Datasheet
PIN2
OE
PIN3
OE
Port i
PIN4
OE
PIN5
OE
PIN6
OE
Page 40 of 105
PIN7
OE
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