Texas Instruments 25382592EM User Manual

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1. Kit Contents

2 x CC2538-CC2592 Evaluation Modules

The RF boards in this kit are FCC and IC certified and
tested/comply with ETSI/R&TTE over temperature from 0
to 35°C.

FCC/IC Regulatory Compliance
FCC Part 15 Class A Compliant
IC ICES-003 Class A Compliant

2. How to use the Modules

The EMK is an add-on kit to supplement the
CC2538DK with evaluation boards.

The CC2538-CC2592EM boards can be plugged
into the SmartRF06 Evaluation Board from Texas
Instruments. This board is included in the
CC2538DK and in the SmartRF06EBK.

This board lets you run a packet error rate (PER)
test, control the device from SmartRF™ Studio and
it can be used as a development platform.

It is also possible to connect the EM to other TI
development boards with the appropriate
connectors

This guide will show how to use the modules
together with SmartRF06EB.

3. CC2538-CC2592EM Overview

4. Plug the EM into the 06EB

Insert a CC2538-CC2592EM board into the
SmartRF06EB as shown above.

NB! Make sure that the jumper on the upper
row on the header on the CC2538­CC2592EM is connected.

Caution! The kit contains ESD

sensitive components. Handle with
care to prevent permanent damage.

5. Power Options

The CC2538-CC2592EM should be powered
through the SmartRF06EB, which will supply a
voltage from 2.1V to 3.6V to the daughter card.
The SmartRF06EB can be powered in several
different ways:

 USB (5V through USB plug)
 2 x 1.5V AAA alkaline batteries
 External power supply (see below)

Voltage regulators on the SmartRF06EB will set
the on-board voltage to 2.1V or 3.3V.

External Regulated Power Supply1 Requirements:
Nom Voltage: 2.1 to 3.3 VDC. MAX 3.6 VDC.
Max Current: 1000 mA
Efficiency Level V

Warning! To minimize risk of injury or property
damage, never use rechargeable batteries to
power the board.

6. Select Power Source

The power source is selected using the Source
switch on the left hand side of the SmartRF06EB.

In “USB” position, the EM is powered over USB,
running at 3.3V. In “BAT” position, the board is
powered from batteries or an external source,
running at 2.1V. The 2.1V regulator can be
bypassed by shorting the pins on the “regulator

bypass” jumper. In this case, the EM is powered

directly from the external source or batteries.

Note that there should only be one active
power source at any one time. Do not leave the
EVM powered when unattended.

7. Welcome Screen

Turn on power with the Main Power switch.
You should now see the Texas Instruments
logo and a short description of the buttons on
the LCD. Pushing any of the five buttons on the
board will take you to the main menu.

NB! If you don’t see anything on the screen

make sure the board is correctly powered
(see step 5 and 6 above).

8. Select Board and Channel

Start by selecting the plug-in board you have,
either the CC2538EM or the combo board
CC2538-CC2591EM.

Then select which channel (frequency) to use.

9. Select Mode

One of the boards must operate as a transmitter
and the other as a receiver. Select transmitter on

one board …

… and receiver on the other board.

1

Power Select Jumper
1-2: Vdd from EB
1-3: Vdd from USB

Micro USB

connector for

testing USB on

CC2538

Emulator

LEDs

USB 5V to

3.3V LDO

10-pin

ARM Debug

Connector

20-pin

ARM-JTAG

Connector

PCB Antenna

SMA connector for

conducted RF testing

(not enabled by default)

CC2538

CC2592

(under shield)

CC2538-CC2592 Evaluation Module Kit Quick Start Guide

Opening the Box and Running the Packet Error Rate Test

February 2014

UL, CSA, VDE, CCC, and PSE.

When using an external power supply, make sure it meets the listed requirements in addition to complying with applicable regional product regulatory and safety certification requirements such as

10. Select RX Gain Mode

On the receiver, select either high gain or low
gain mode for the CC2592.

The receiver is now ready to receive packets.
Continue with the configuration of the transmitter.

11. Select TX Power

On the transmitter, select desired output power.

12. Select Packet Rate

Still on the transmitter, select the desired burst
size, that is, the number of packets to transmit.

Then select the packet rate.

13. Start Sending Packets

The transmitter is now configured and in idle
state. Sending packets is started and stopped by
pressing the Select button.

14. PER Test Results

On the receiver, the statistics window will show
the error rate based on the number of lost or
erroneous packets divided by the total number of
packets that should have been received.

15. References

Please visit www.ti.com and

http://www.ti.com/tool/cc2538-CC2592emk
http://www.ti.com/tool/cc2538dk

The reference design for the evaluation board
can be found here:

http://www.ti.com/tool/cc2538-cc2592em-rd

On the kit product page, you will find additional
documentation, links to updated software
examples and software tools like SmartRF
Studio.

You will also find a lot of information on the TI
E2E forum at http://e2e.ti.com

We hope that you will enjoy working with the
CC2592 and CC2538 devices.

16. Troubleshooting

It you are experiencing problems with this test,
please check the following:

 Nothing is shown in the display! Make sure

the board is powered correctly (see steps 5
and 6 above).

 Please visit the kit web page and check for

updated SW and documentation. Updated
SW can be downloaded to the device using
IAR Embedded Workbench for ARM or
SmartRF Flash Programmer.

1. Download and Install

Before connecting SmartRF06EB to your PC,
download and install SmartRF Studio from

www.ti.com/smartrfstudio.

2. Launch SmartRF Studio

After installing the tool, connect the EB to the PC
using the USB cable and start SmartRF Studio.
Select the “2.4 GHz” tab and click the refresh
("Find device") button in the lower right corner.
Studio will now find the connected SmartRF06EB.
Double click on the detected SmartRF06EB to
launch the CC2538 device control panel.

3. Test the Radio

You can now configure the radio, run
performance tests, export register settings and
run link tests with another CC2538 on a
SmartRF06EB connected to the PC.

SmartRF™ Studio