CP2400DK Silicon Laboratories Inc, CP2400DK Datasheet - Page 62

CP2400DK

Manufacturer Part Number

CP2400DK

Description

KIT EVAL SPI LCD DRIVER CP2400

Manufacturer

Silicon Laboratories Inc

Datasheets

1.CP2401DK.pdf (32 pages)

2.CP2401DK.pdf (2 pages)

3.CP2401AB.pdf (110 pages)

Specifications of CP2400DK

Main Purpose

LCD Development

Embedded

Yes

Utilized Ic / Part

CP2400

Primary Attributes

I²C, SMBus Interfaces

Secondary Attributes

Up to 128 segments

Product

Microcontroller Modules

Core Processor

C8051F930

Clock Speed

20 MHz

Interface Type

SPI

Timers

Operating Supply Voltage

1.8 V to 3.6 V

Cpu Core

C8051F930

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Contains lead / RoHS non-compliant

Other names

336-1858
336-1858

Current page: 62 of 110
Download datasheet (763Kb)

CP2400/1/2/3

10.1.3. Interfacing Port I/O to 5 V and 3.3 V Logic

All Port I/Os configured for digital, open-drain operation are capable of interfacing to digital logic operating at a

supply voltage higher than 4.5 V and less than 5.25 V. When the supply voltage is in the range of 1.8 to 2.2 V, the

I/O may also interface to digital logic operating between 3.0 to 3.6 V. An external pull-up resistor to the higher

supply voltage is typically required for most systems.

Important Notes:



10.1.4. Increasing Port I/O Drive Strength

Port I/O digital output drivers support a high and low drive strength; the default is low drive strength. The drive

strength of a Port I/O can be configured using the PnDRIVE registers. See Table 3.2 on page 13 for the difference

in output drive strength between the two modes.

10.2. Assigning Port I/O Pins to Analog and Digital Functions

Port I/O pins are multi-function and may be used for multiple purposes. The following process can be used to

assign GPIO pins to their appropriate function.

1. Determine the pins to be used for the LCD function. These pins need to be configured for Analog I/O.

2. Any remaining unused pins may be used for GPIO or Port Match. These pins need to be configured for Digital I/

When interfacing to a signal that is between 4.5 and 5.25 V, the maximum clock frequency that may be input on

a GPIO pin is 12.5 MHz. The exception to this rule is when routing an external CMOS clock to P0.3, in which

case a signal up to 25 MHz is valid as long as the rise time (10% to 90%) is shorter than 1.8 ns.

When the supply voltage is less than 2.8 V and interfacing to a signal that is between 3.0 and 3.6 V, the

maximum clock frequency that may be input on a GPIO pin is 3.125 MHz. The exception to this rule is when

routing an external CMOS clock to P0.3, in which case a signal up to 25 MHz is valid as long as the rise time

(10% to 90%) is shorter than 1.2 ns.

In a multi-voltage interface, the external pull-up resistor should be sized to allow a current of at least 150 µA to

flow into the Port pin when the supply voltage is between (VDD_MCU/DC+ plus 0.4 V) and (VDD_MCU/DC+

plus 1.0 V). Once the Port pad voltage increases beyond this range, the current flowing into the Port pin is

minimal.

These guidelines only apply to multi-voltage interfaces. Port I/Os may always interface to digital logic operating

at the same supply voltage.

O. Note: ULP Port Match is only available on a limited number of pins. See Section “9.7. Port Match

Functionality in the Ultra Low Power Modes” on page 56 for more details. All Port

I/O with the exception of P3.3–P4.3 must be configured to Analog mode prior to entering ULP Mode.

Rev. 1.0

CP2400DK Silicon Laboratories Inc, CP2400DK Datasheet - Page 62

CP2400DK

Specifications of CP2400DK

Related parts for CP2400DK