TOOLSTICKSK Silicon Laboratories Inc, TOOLSTICKSK Datasheet - Page 13

TOOLSTICKSK

Manufacturer Part Number

TOOLSTICKSK

Description

KIT STARTER TOOLSTICK

Manufacturer

Silicon Laboratories Inc

Series

ToolStickr

Type

MCUr

Datasheet

1.TOOLSTICKSK.pdf (18 pages)

Specifications of TOOLSTICKSK

Contents

Base Adapter, C8051F330 Daughter Card and USB Cable

Interface Type

USB

Operating Supply Voltage

2.7 V to 3.6 V

Accessory Type

Starter Kit Adapter

Convert From

USB

Convert To

Daughter Board

Development Tool Type

Hardware - Daughter Card

Mcu Supported Families

ToolStick C8051F330

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

For Use With/related Products

C8051F300

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With

C8051F330

Lead Free Status / RoHS Status

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

Other names

336-1348

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7. Additional Demo Examples

In addition to the F330DC_FeaturesDemo example firmware, the ToolStick download package also includes demo

projects named F330DC_ADC0_TemperatureSensor and F330DC_IDA0_SineWave. The instructions for

running these demos can be found at the top of the source file.

The project and source files for these demos can be found in the C:\SiLabs\MCU\ToolStick\F330DC\Firmware\

folder.

8. Using the C8051F330 Daughter Card as a Development Platform

The prototyping area on the ToolStick C8051F330 daughter card makes it easy to interface to external hardware.

All of the digital I/O pins are available so it possible to create a complete system.

8.1. C8051F330 Pin Connections

It is important to note that if external hardware is being added, some of the existing components on the board can

interfere with the signaling. The following is a list of port pins on the C8051F330 that are connected to other

components:

See the daughter card schematic in Section 11 for more information.

8.2. VREF Capacitor

On the C8051F330 devices, if VREF is generated internally, it is output to port pin P0.0. For VREF stability, it is

highly recommended to place a capacitor on the VREF output pin. On the ToolStick C8051F330 Daughter Card,

there are pads on the board (C3) to populate a 0603 surface mount capacitor. The firmware examples for the

daughter card use VDD as VREF, so no external capacitor on P0.0 is necessary for proper operation.

8.3. C2 Pin Sharing

On the C8051F330, the debug pins, C2CK, and C2D, are shared with the pins /RST and P2.0 respectively. The

daughter card includes the resistors necessary to enable pin sharing which allow the /RST and P2.0 pins to be

used normally while simultaneously debugging the device. See Application Note “AN124: Pin Sharing Techniques

for the C2 Interface” at

P0.1—This pin has a pull-down resistor (R7) to ground so that the IDAC output can be converted to a voltage.

R7 can be safely removed from the daughter card if it is not needed.

P0.4, P0.5—These pins are connected directly to the ToolStick Base Adapter for UART communication.

P0.6, P0.7—These pins are connected directly to the ToolStick Base Adapter’s GPIO pins. By default, these

GPIO pins on the Base Adapter are high-impedance pins so they will not affect any signaling. Configuring these

pins on the Base Adapter to output pin or handshaking pins could affect signaling.

P1.3—This pin is connected to the cathode of the green LED on the daughter card. The LED or the R2 resistor

can be removed to disconnect the LED from the pin.

P1.6—This pin is connected to the output of the potentiometer. The 0 ohm resistor can be removed to

disconnect the potentiometer from the pin.

www.silabs.com

for more information regarding pin sharing.

Rev. 0.3

ToolStick-F330DC

TOOLSTICKSK Silicon Laboratories Inc, TOOLSTICKSK Datasheet - Page 13

TOOLSTICKSK

Specifications of TOOLSTICKSK

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