TOOLSTICK540DC Silicon Laboratories Inc, TOOLSTICK540DC Datasheet - Page 149

TOOLSTICK540DC

Manufacturer Part Number

TOOLSTICK540DC

Description

DAUGHTER CARD TOOLSTICK F540

Manufacturer

Silicon Laboratories Inc

Series

ToolStickr

Type

MCUr

Datasheets

1.TOOLSTICK540DC.pdf (274 pages)

2.TOOLSTICK540DC.pdf (16 pages)

3.TOOLSTICK540DC.pdf (12 pages)

Specifications of TOOLSTICK540DC

Contents

Daughter Card

Processor To Be Evaluated

C8051F54x

Processor Series

C8051F54x

Interface Type

USB

Operating Supply Voltage

2.7 V to 3.6 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

C8051F54x

For Use With

336-1345 - TOOLSTICK BASE ADAPTER336-1182 - ADAPTER USB DEBUG FOR C8051FXXX

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1717

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18.1.3. Interfacing Port I/O in a Multi-Voltage System

All Port I/O are capable of interfacing to digital logic operating at a supply voltage higher than V

than 5.25 V. Connect the V

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

Port I/O pins P0.0–P3.0 can be assigned to various analog, digital, and external interrupt functions. The

Port pins assigned to analog functions should be configured for analog I/O, and Port pins assigned to digi-

tal or external interrupt functions should be configured for digital I/O.

18.2.1. Assigning Port I/O Pins to Analog Functions

Table 18.1 shows all available analog functions that require Port I/O assignments. Port pins selected for

these analog functions should have their corresponding bit in PnSKIP set to 1. This reserves the pin

for use by the analog function and does not allow it to be claimed by the Crossbar. Table 18.1 shows the

potential mapping of Port I/O to each analog function.

18.2.2. Assigning Port I/O Pins to Digital Functions

Any Port pins not assigned to analog functions may be assigned to digital functions or used as GPIO. Most

digital functions rely on the Crossbar for pin assignment; however, some digital functions bypass the

Crossbar in a manner similar to the analog functions listed above. Port pins used by these digital func-

tions and any Port pins selected for use as GPIO should have their corresponding bit in PnSKIP set

to 1. Table 18.2 shows all available digital functions and the potential mapping of Port I/O to each digital

function.

ADC Input

Comparator0 or Compartor1 Input

Voltage Reference (VREF0)

External Oscillator in Crystal Mode (XTAL1)

External Oscillator in RC, C, or Crystal Mode (XTAL2)

*Note: P2.2-P2.7, P3.0 are only available on the 32-pin packages

UART0, SPI0, SMBus, LIN0,

CP0, CP0A, CP1, CP1A,

SYSCLK, PCA0 (CEX0-5

and ECI), T0 or T1.

*Note: P2.2-P2.7, P3.0 are only available on the 32-pin packages.

Digital Function

Analog Function

Table 18.1. Port I/O Assignment for Analog Functions

Table 18.2. Port I/O Assignment for Digital Functions

pin to the voltage source of the interface logic.

Any Port pin available for assignment by the

Crossbar. This includes P0.0–P3.0* pins which

have their PnSKIP bit set to 0.

Note: The Crossbar will always assign UART0 pins

to P0.4 and P0.5.

Potentially Assignable Port Pins

Rev. 1.1

Potentially Assignable

P0.0–P3.0*

P0.0–P2.7*

Port Pins

P0.0

P0.2

P0.3

C8051F54x

XBR0, XBR1, XBR2

CPT0MX, CPT1MX,

OSCXCN, PnSKIP

ADC0MX, PnSKIP

REF0CN, PnSKIP

SFR(s) used for

Assignment

PnSKIP

and less

149

TOOLSTICK540DC Silicon Laboratories Inc, TOOLSTICK540DC Datasheet - Page 149

TOOLSTICK540DC

Specifications of TOOLSTICK540DC

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