cy8c5588pvi-115es0 Cypress Semiconductor Corporation., cy8c5588pvi-115es0 Datasheet - Page 30

cy8c5588pvi-115es0

Manufacturer Part Number

cy8c5588pvi-115es0

Description

Cy8c55 Family Data Sheet Programmable System-on-chip Psoc?

Manufacturer

Cypress Semiconductor Corporation.

Datasheet

1.CY8C5588PVI-115ES0.pdf (102 pages)

Current page: 30 of 102
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glass drive of LCD glass. See the

page 48 for details.

6.0.10 Adjustable Output Level

This section applies only to SIO pins. SIO port pins support the

ability to provide a regulated high output level for interface to

external signals that are lower in voltage than the SIO’s

respective V

either the standard V

based on an internally generated reference. Typically a voltage

DAC (VDAC) is used to generate the reference. The

section on page 49 has more details on VDAC use and reference

routing to the SIO pins. Resistive pull-up and pull-down drive

modes are not available with SIO in regulated output mode.

6.0.11 Adjustable Input Level

This section applies only to SIO pins. SIO pins by default support

the standard CMOS and LVTTL input levels but also support a

differential mode with programmable levels. SIO pins are

grouped into pairs. Each pair shares a reference generator block

which, is used to set the digital input buffer reference level for

interface to external signals that differ in voltage from V

reference sets the pins voltage threshold for a high logic level.

Available input thresholds are:

■

Typically a voltage DAC (VDAC) generates the V

“DAC”

reference routing to the SIO pins.

6.0.12 SIO as Comparator

This section applies only to SIO pins. The adjustable input level

feature of the SIOs as explained in the

section can be used to construct a comparator. The threshold for

the comparator is provided by the SIO's reference generator. The

reference generator has the option to set the analog signal

routed through the analog global line as threshold for the

comparator. Note that a pair of SIO pins share the same

threshold.

The digital input path in

functionality. In the figure, ‘Reference level’ is the analog signal

routed through the analog global. The hysteresis feature can

also be enabled for the input buffer of the SIO, which increases

noise immunity for the comparator.

6.0.13 Hot Swap

This section applies only to SIO pins. SIO pins support ‘hot swap’

capability to plug into an application without loading the signals

that are connected to the SIO pins even when no power is

applied to the PSoC device. This allows the unpowered PSoC to

maintain a high impedance load to the external device while also

preventing the PSoC from being powered through a GPIO pin’s

protection diode.

6.0.14 Over Voltage Tolerance

All I/O pins provide an over voltage (V

tolerance feature at any operating V

■

Document Number: 001-44094 Rev. *J

0.5 V

0.4 V

0.5 V

There are no current limitations for the SIO pins as they present

a high impedance load to the external circuit.

REF

section on page 49 has more details on VDAC use and

DDIO

REF

DDIO

. SIO pins are individually configurable to output

DDIO

Figure 6-4 on page 27

level or the regulated output, which is

“LCD Direct Drive”

DDIO

Adjustable Input Level

< V

PRELIMINARY

illustrates this

REF

< V

DDA

section on

reference.

“DAC”

DDIO

)

. The

■

A common application for this feature is connection to a bus such

as I

voltages. In the I

Open Drain, Drives Low mode for the SIO pin. This allows an

external pull-up to pull the I

supply. For example, the PSoC chip could operate at 1.8 V, and

an external device could run from 5 V. Note that the SIO pin’s V

and V

pin.

The I/O pin must be configured into a high impedance drive

mode, open drain low drive mode, or pull-down drive mode, for

over voltage tolerance to work properly. Absolute maximum

ratings for the device must be observed for all I/O pins.

6.0.15 Reset Configuration

While reset is active all I/Os are reset to and held in the High

Impedance Analog state. After reset is released, the state can be

reprogrammed on a port-by-port basis to pull-down or pull-up. To

ensure correct reset operation, the port reset configuration data

is stored in special nonvolatile registers. The stored reset data is

automatically transferred to the port reset configuration registers

at reset release.

6.0.16 Low Power Functionality

In all low power modes the I/O pins retain their state until the part

is awakened and changed or reset. To awaken the part, use a

pin interrupt, because the port interrupt logic continues to

function in all low power modes.

6.0.17 Special Pin Functionality

Some pins on the device include additional special functionality

in addition to their GPIO or SIO functionality. The specific special

function pins are listed in

features are:

■

6.0.18 JTAG Boundary Scan

The device supports standard JTAG boundary scan chains on all

pins for board level test.

The GPIO pins must be limited to 100 µA using a current limiting

resistor. GPIO pins clamp the pin voltage to approximately one

diode above the V

In case of a GPIO pin configured for analog input/output, the

analog voltage on the pin must not exceed the V

voltage to which the GPIO belongs.

Digital

❐

Analog

❐

PSoC

4- to 33-MHz crystal oscillator

32.768-kHz crystal oscillator

Wake from sleep on I

for I

JTAG interface pins

SWD interface pins

SWV interface pins

External reset

Opamp inputs and outputs

High current IDAC outputs

External reference inputs

C where different devices are running from different supply

levels are determined by the associated V

C if wake from sleep is not required.

5: CY8C55 Family Datasheet

C case, the PSoC chip is configured into the

DDIO

supply.

“Pinouts”

C address match. Any pin can be used

C bus voltage above the PSoC pin

on page 5. The special

DDIO

Page 30 of 102

supply

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