Silicon Labs ETRX351, ETRX357 User manual

©2019 Silicon Labs

ETRX35x Product Manual

Telegesis

TG-ETRX35X-PM-010-121

ETRX351 and ETRX357 Product Manual 1.21

ETRX35x ZIGBEE MODULES

PRODUCT MANUAL

ETRX351 and ETRX357

©2019 Silicon Labs

- 2 -

ETRX35x Product Manual (Rev 1.21)

Table of Contents

1 INTRODUCTION ................................................................................................................. 5

1.1 Hardware Description ....................................................................................................... 5

2 PRODUCT APPROVALS ........................................................................................................ 6

2.1 FCC Approvals ................................................................................................................. 6

FCC Labelling Requirements ........................................................................................... 7

2.2 IC (Industry Canada) Approvals............................................................................................ 7

2.3 European Certification (ETSI) ........................................................................................... 8

2.4 ICASA Approvals .............................................................................................................. 8

2.5 Australia and New Zealand (C-Tick) ................................................................................. 8

2.6 Brazil ................................................................................................................................ 9

2.7 Declarations of Conformity ............................................................................................... 9

2.8 IEEE 802.15.4 .................................................................................................................. 9

2.9 The Zigbee Protocol ....................................................................................................... 10

3 MODULE PINOUT ................................................................................................................. 11

4 HARDWARE DESCRIPTION ............................................................................................ 13

4.1 Hardware Interface ......................................................................................................... 13

5 FIRMWARE DESCRIPTION .............................................................................................. 14

5.1 Token Settings ............................................................................................................... 15

5.2 C

ustom Fir mware ........................................................................................................... 15

5.3 Software Interface .......................................................................................................... 16

6 ABSOLUTE MAXIMU M RATINGS ................................................................................. 17

6.1 Environmental Characteristics ........................................................................................ 17

6.2 Recommended Operating Conditions ............................................................................. 17

7 DC ELECTRICAL CHARACTERISTICS ........................................................................... 18

8 DIGITAL I/O SPECIFICATIONS ........................................................................................ 20

9 A/D CONVERTER CHARACTERISTICS ........................................................................ 21

10 AC ELECTRICAL CHARACTERISTICS ......................................................................... 21

10.1 TX Power Characteristics ............................................................................................... 23

11 PHYSICAL DIMENSIONS ................................................................................................. 25

12 RECOMMENDED SOLDERING TEMPERATURE PROFILE ............................................ 27

13 PRODUCT LABEL DRAWING .......................................................................................... 28

14 RECOMMENDED FOOTPRINT ........................................................................................ 29

14.1 Pad dimensions

.................................................................

14.2 Recommended Placement.................................................................................................. 30

14.3 Example carrier board .................................................................................................... 32

15 RELIABILITY TESTS ............................................................................................................ 33

16 APPLICATION NOTES .................................................................................................. 33

16.

1 Safety Precautions ......................................................................................................... 33

16.2 Design Engineering Notes .................................................................................................. 33

............................................. 29

ETRX351 and ETRX357

©2019 Silicon Labs

- 3 -

ETRX35x Product Manual (Rev 1.21)

16.3 Storage Conditions ......................................................................................................... 34

17 PACKAGING .................................................................................................................... 34

17.1 Embossed Tape ............................................................................................................. 34

17.2 Component Orientation .................................................................................................. 35

17.3 Reel Dimensions ............................................................................................................ 35

17.4 Packaging - bag .................................................................................................................. 37

17.5 Packaging – carton ......................................................................................................... 37

18 ORDERING INFORMATION ............................................................................................. 38

19 ROHS DECLARATION .......................................................................................................... 39

20 DATA SHEET STATUS .................................................................................................... 39

21 RELATED DOCUMENTS .................................................................................................. 39

©2019 Silicon Labs

- 4 -

ETRX35x Product Manual (Rev 1.21)

Image not shown actual size; enlarged to show detail.

Module Features

• Small form factor, SMT module 25mm x 19mm

• Side Castellations for easy soldering and optical

inspection

• 2 antenna options: Integrated chip antenna or U.FL
coaxial connector

• Industry’s first ARM® Cortex-M3 based family of Zigbee
modules

• Industry standard JTAG Programming and real time
network level debugging via the Ember InSight Port

• 192kB (ETRX357) and 128kB (ETRX351) flash and
12kbytes of RAM

• Lowest Deep Sleep Current of sub 1µA and multiple
sleep modes

• Wide supply voltage range (2.1 to 3.6V)

• Optional 32.768kHz watch crystal can be added

externally

• Module ships with standard Telegesis AT-style command
interface based on the Zigbee PRO feature set

• Can act as an End Device, Router or Coordinator

• 24 general-purpose I/O lines including analogue inputs

(all GPIOs of the EM35x are accessible)

• Firmware upgrades via serial port or over the air
(password protected)

• Hardware supported encryption (AES-128)

• CE, FCC and IC compliance, FCC modular approval

• Operating temperature range: -40

• Long range version with a link budget of up to 124dB

available in the same form factor

°

C to +85°C

Radio Features

• Based on the Ember EM351 or EM357 single chip Zigbee
solutions

• 2.4GHz ISM Band

• 250kbit/s over the air data rate

• 16 channels (IEEE802.15.4 Channel 11 to 26)

• +3dBm output power ( +8dBm in boost mode)

• High sensitivity of -100dBm (-102dBm in boost mode)

typically @ 1% packet error rate

• RX Current: 26mA, TX Current: 31mA at 3dBm

• Robust Wi-Fi and Bluetooth coexistence

ETRX351 and ETRX357

The Telegesis ETRX351 and ETRX357 modules are low power

2.4GHz Zigbee modules, based on the latest Ember EM351 and
EM357 single chip Zigbee

rd

These 3

generation modules have been designed to be
integrated into any device without the need for RF experience
and expertise. Utilizing the EmberZNet Zigbee stack, the
ETRX35x enables you to add powerful wireless networking
capability to your products and quickly bring them to market.

The module’s unique AT-style command line interface allows
designers to quickly integrate Zigbee technology without
complex software engineering. For custom application
development the ETRX35x series integrates with ease into
Ember’s InSight development environment.

Suggested Applications

• AMR – Zigbee Smart Energy applications

• Wireless Alarms and Security

• Home/Building Automation

• Wireless Sensor Networks

• M2M Industrial Controls

• Lighting and ventilation control

• Remote monitoring

• Environmental monitoring and control

Development Kit

• New Development kit containing everything required to
set up a mesh network quickly and evaluate range and
performance of the ETRX35x and its long-range version.

• AT-style software interface command dictionary can be
modified for high volume customers.

• Custom software development available upon request.

Example AT-Style Commands

AT+BCAST Send a Broadcast
AT+UCAST:<address> Send a Unicast
AT+EN Establish PAN network
AT+JN Join PAN

At power-up the last configuration is loaded from non-volatile
S-Registers, which can eliminate the need for an additional
host controller.

TM

solutions.

ETRX351 and ETRX357

©2019 Silicon Labs

- 5 -

ETRX35x Product Manual (Rev 1.21)

Module

Chip

Flash

RAM

ETRX351

EM351

128kB

12kB

ETRX351HR

EM351

128kB

12kB

ETRX357

EM357

192kB

12kB

ETRX357HR

EM357

192kB

12kB

1.1 Hardware Description

1 Introduction

This document describes the Telegesis ETRX351 and ETRX357 Zigbee modules which have been
designed to be easily integrated into another device and to provide a fast, simple and low cost
wireless mesh networking interface.

The Telegesis ETRX3 series modules are based on the Ember Zigbee platform consisting of the
single chip EM351 or EM357 combined with the Zigbee PRO compliant EmberZNet meshing stack.
Integration into a wide range of applications is made easy using a simple AT style command interface
and advanced hardware design.

The configurable functionality of the Telegesis AT Commandset often allows the ETRX3 series
Zigbee modules to be used without an additional host microcontroller saving even more integration
time and costs. In addition to the Telegesis AT Commandset, the ETRX351 and ETRX357 modules
can be used with custom-built firmware whilst representing an ideal platform for custom firmware
development in conjunction with the Ember development kits.

No RF experience or expertise is required to add this powerful wireless networking capability to your
products. The ETRX351 and ETRX357 offer fast integration opportunities and the shortest possible
time to market for your product.

The main building blocks of the ETRX351 and ETRX357 are the single chip EM351 and EM357
SoCs from Ember, a 24MHz reference crystal and RF front-end circuitry optimized for best RF
performance. The modules are available with on-board antenna or alternatively a U.FL coaxial
connector for attaching external antennae. Modules with the U.FL connector are identified by the
“HR” suffix.

The integrated antenna is an Antenova Rufa, and details of the radiation pattern etc are available
from the Antenova website Fehler! Verweisquelle konnte nicht gefunden werden..

The ETRX351 and ETRX357 are used for Zigbee (www.zigbee.org) applications. In case it is desired
to develop custom firmware instead of using the pre-loaded AT-Command interface, the Ember
InSight toolchain, consisting of InSight Desktop™ together with a comprehensive integrated
development environment (IDE), is required. The Ember development environment is currently not
suitable for developing an IEEE802.15.4-only application that does not use the Zigbee layer.

Table 1: Memories

ETRX351 and ETRX357

©2019 Silicon Labs

- 6 -

ETRX35x Product Manual (Rev 1.21)

2.1 FCC Approvals

2 Product Approvals

Item

Part No.

Manufacturer

Type

Impedance

Gain

1

BT-Stubby (straight)

EAD Ltd. [6]

¼ Wave

50Ω

0dBi

BT-Stubby (right­angle)

50Ω

3

WH-2400-U2.5

Wellhope Wireless [7]

½ Wave

50Ω

2.5dBi

50Ω

2.1dBi
(peak)

The ETRX351 and ETRX357 as well as the ETRX351HR and ETRX357HR have been designed to
meet all national regulations for world-wide use. In particular the following certifications have been
obtained:

The Telegesis ETRX351 and ETRX357 with integrated Antenna as well as the ETRX351HR and the
ETRX357HR including the antennas listed in Table 2 have been tested to comply with FCC CFR
Part 15 (USA) The devices meet the requirements for modular transmitter approval as detailed in
the FCC public notice DA00.1407.transmitter. FCC statement:

This device complies with Part 15 of the FCC rules. Operation is subject to the following
two conditions: (1) this device may not cause harmful interference, and (2) this device must
accept any interference received, including interference that may cause undesired
operation.

FCC ID: S4GEM35XA

2

4 Rufa (on board) Antenova Chip

While the applicant for a device into which the ETRX351 (ETRX357) or ETRX351HR (ETRX357HR)
with an antenna listed in Table 2 is installed is not required to obtain a new authorization for the
module, this does not preclude the possibility that some other form of authorization or testing may
be required for the end product.

The FCC requires the user to be notified that any changes or modifications made to this device that
are not expressly approved by Telegesis (UK) Ltd. may void the user's authority to operate the
equipment.

When using the ETRX351HR and ETRX357HR with approved antennae, it is required to prevent
end-users from replacing them with non-approved ones. The module and associated antenna must
be installed to provide a separation distance of at least 20cm from all persons and must not transmit
simultaneously with any other antenna or transmitter.

EAD Ltd. [6] ¼ Wave

Table 2: Approved Antennae

0dBi

ETRX351 and ETRX357

©2019 Silicon Labs

- 7 -

ETRX35x Product Manual (Rev 1.21)

2.2 IC (Industry Canada) Approvals

FCC Labelling Requirements

When integrating the ETRX351, ETRX357, ETRX351HR or ETRX357HR into a product it must be
ensured that the FCC labelling requirements are met. This includes a clearly visible label on the
outside of the finished product specifying the Telegesis FCC identifier (FCC ID: S4GEM35XA) as
well as the FCC notice shown on the previous page. This exterior label can use wording such as
“Contains Transmitter Module FCC ID: S4GEM35XA” or “Contains FCC ID:S4GEM35XA”
although any similar wording that expresses the same meaning may be used.

The Telegesis ETRX351 and ETRX357 with integrated Antenna as well as the ETRX351HR and the
ETRX357HR modules have been approved by Industry Canada to operate with the antenna types
listed in Table 2 with the maximum permissible gain and required antenna impedance for each
antenna type indicated. Antenna types not included in this list, having a gain greater than the
maximum gain indicated for that type, are strictly prohibited for use with this device.

IC-ID: 8735A-EM35XA

• This device complies with Industry Canada license-exempt RSS standard(s).
Operation is subject to the following two conditions: (1) thi s device may not cause
interference, and (2) this device must accept any interference, including interference
that may cause undesired operation of the device.

• Und

•

•

The labelling requirements for Industry Canada are similar to those of the FCC. Again a clearly
visibly label must be placed on the outside of the finished product stating something like “Contains
Transmitter Module, IC: 8735A-EM35XA”, although any similar wording that expresses the same
meaning may be used.

The integrator is responsible for the final product to comply to IC ICES-003 and FCC Part 15, Sub.
B – Unintentional Radiators.

er Industry Canada regulations, this radio transmitter may only operate using an
antenna of a type and maximum (or lesser) gain approved for the transmitter by
Industry Canada. To reduce potential radio interference to other users, the antenna
type and its gain should be so chosen that the equivalent isotropically radiated
power (e.i.r.p.) is not more than that permitted for successful communication.

This module complies with FCC and Industry Canada RF radiation exposure limits
set forth for general population. To maintain compliance, this module must not be co­located or operating in conjunction with any other antenna or transmitter.
This device has been designed to operate with the antennas listed in Table 2, and
having a maximum gain of 2.5 dBi. A nte nn as not included in this list or having a gain
greater than 2.5 dBi are strictly prohibited for use with this device. The required
antenna impedance is 50 ohms.

ETRX351 and ETRX357

©2019 Silicon Labs

- 8 -

ETRX35x Product Manual (Rev 1.21)

2.5 Australia and New Zealand (C-Tick)

2.4 ICASA Approvals

2.3 European Certification (ETSI)

The ETRX351, ETRX357, ETRX351HR and ETRX357HR modules are in conformity with the
essential requirements and other relevant requirements of the Radio Equipment Directive (RED)
(2014/53/EU). These include

•

Radio:
EMC:

•
EN 301 489-

EN 300 328 v2.1.1
EN 301 489-17 v3.1.1

1 V2.1.1

• Safety: IEC 60950-1:2005, IEC 60950-1:2005/AMD1:2009,
IEC 60950-1:2005/AMD2:2013

Please note that every application using the modules will need to perform the radio EMC tests on the
end product, according to EN 301 489-17. It is ultimately the responsibility of the manufacturer to
ensure the compliance of the end product. The specific product assembly may have an impact to RF
radiated characteristics, and manufacturers should carefully consider RF radiated testing with the
end-product assembly. A formal DoC is available via www.silabs.com
The modules are in conformity with the essential requirements and other relevant requirements of
the Radio Equipment Directive (RED) with the antennae listed in Table 2.

The ETRX351, ETRX357, ETRX351HR and ETRX357HR have been certified to be used in South
Africa.

The ETRX351, ETRX357, ETRX351HR and ETRX357HR have been certified to be used in Australia
and New Zealand.

In order to have a C-Tick mark on an end product integrating an ETRX35x device, a company must
comply with a or b below.

a). have a company presence in Australia.
b). have a company/distributor/agent in Australia that will sponsor the importing of the end product.

ETRX351 and ETRX357

©2019 Silicon Labs

- 9 -

ETRX35x Product Manual (Rev 1.21)

2.6 Brazil

The ETRX357 and ETRX357HR have been certified to be used in Brazil. The Anatel ID for both
module variants is 03190 -19-03402. To comply to Brazil ian regulations it is required to disp lay Anatel
related information including, but not limited to the graphics below in the end-product’s user guide.

ETRX351 and ETRX357

©2019 Silicon Labs

- 10

ETRX35x Product Manual (Rev 1.21)

2.8 IEEE 802.15.4

2.7 Declarations of Conformity

Telegesis (UK) Ltd has issued Declarations of Conformity for all ETRX3 series Zigbee RF Modules,
which cover Radio Emissions, EMC and Safety. These documents are available from our website
or on request.

IEEE 802.15.4 is a standard for low data-rate, wireless networks (raw bit-rate within a radio packet
of 250kbps @2.4GHz) which focuses on low cost, low duty cycle, long primary battery life
applications as well as mains-powered applications. It is the basis for the open Zigbee Protocol.

ETRX351 and ETRX357

©2019 Silicon Labs

- 10 -

ETRX35x Product Manual (Rev 1.21)

2.9 The Zigbee Protocol

The Zigbee Protocol is a set of standards for wireless connectivity for use between any devices over
short to medium distances. The specification was originally ratified in December 2004, paving the
way for companies to start making low-power networks a reality.

Zigbee uses the IEEE 802.15.4 radio specification running on the 2.4GHz band, plus three additional
layers for networking, security and applications. What makes the specification unique is its use of a
mesh network architecture which, in bucket chain style, passes data from one node to the next until
it lands at its destination. The network is self-healing and adapts its routing as link quality changes
or nodes move. Furthermore, nodes can be defined as End Devices which do not act as routers,
but can therefore be put into a low-power sleep state.

The enhanced version of the Zigbee standard (or Zigbee 2006) was released in December 2006,
adding new features and improvements to the only global wireless communication standard enabling
the development of easily deployable low-cost, low-power, monitoring and control products for
homes, commercial buildings and industrial plant monitoring. In 2007 the Zigbee Alliance introduced
the PRO featureset which offers advantages over earlier versions, including

• Truly self healing mesh networking

• Messages can now travel up to 30 hops

• Source-Routing for improved point to multipoint message transmission

• Improved security including Trust-Centre link keys

• New message types and options

The Telegesis AT-Commandset, which by default ships on all ETRX3 series products is based on
the ZigBee PRO featureset. For more information on the Telegesis AT-Commandset please refer to
the separate documentation at www.telegesis.com.

ETRX351 and ETRX357

©2019 Silicon Labs

- 11 -

ETRX35x Product Manual (Rev 1.21)

3 Module Pinout

Figure 1: ETRX3 series Module Pinout (top view)

The table below gives details about the pin assignment for direct SMD soldering of the ETRX3 series
modules to the application board. For more information on the alternate functions please refer to
[2]. Also refer to the Telegesis AT Commandset documentation and the Telegesis development kit
documentation to understand how the pre-programmed firmware makes use of the individual I/Os.

All GND pads are connected within the module, but for best RF performance all of them should be
grounded externally ideally to a ground plane.

“Important Note: If designers would like to keep open the option of using either standard or long
range modules in the same product please note the following. The ETRX35x series and the
ETRX35x-LRS series of modules are footprint compatible, but on the ETRX35x-LRS series pins PB0
and PC5 of the EM357 are used internally to control the front-end module and are not available to
the user.”

ETRX351 and ETRX357

©2019 Silicon Labs

- 12 -

ETRX35x Product Manual (Rev 1.21)

ETRX35x
Pad

Name

EM35x Pin

Default use

Alternate Functions

1

GND

GND

GND

2

PC5 {1}

11 TX_ACTIVE

3

PC6

13

I/O

OSC32B, nTX_ACTIVE

4

PC7

14

I/O

OSC32A, OSC32_EXT

5

PA7 {5}

18

I/O

TIM1C4

6

PB3 {2,3}

19

I/O, CTS

SC1nCTS, SC1SCLK, TIM2C3

7

nReset {6}

12

nReset

8

PB4 {2,3}

20

I/O, RTS

TIM2C4, SC1nRTS, SC1nSSEL

9

PA0

21

I/O

TIM2C1, SC2MOSI

10

PA1

22

I/O

TIM2C3, SC2SDA, SC2MISO

11

PA2

24

I/O

TIM2C4, SC2SCL, SC2SCLK

12

PA3

25

I/O

SC2nSSEL, TRACECLK, TIM2C2

13

GND

GND

GND

14

PA4

26

I/O

ADC4, PTI_EN, TRACEDATA

15

PA5 {4}

27

I/O

ADC5, PTI_DATA, nBOOTMODE, TRACEDATA3

16

PA6 {5}

29

I/O

TIM1C3

17

PB1 {3}

30

TXD

SC1MISO, SC1MOSI, SC1SDA, SC1TXD, TIM2C1

18

PB2 {3}

31

RXD

SC1MISO, SC1MOSI, SC1SCL, SC1RXD, TIM2C2

19

GND

GND

GND

20

GND

GND

GND

21

JTCK

32 SWCLK

22

PC2

33

I/O

JTDO, SWO

23

PC3

34

I/O

JTDI

24

PC4

35

I/O

JTMS, SWDIO

25

PB0

36

I/O, IRQ

VREF, IRQA, TRACECLK, TIM1CLK, TIM2MSK

26

PC1

38

I/O

ADC3, SWO, TRACEDATA0

27

PC0 {5}

40

I/O

JRST, IRQD, TRACEDATA1

28

PB7 {5}

41

I/O

ADC2, IRQC, TIM1C2

29

PB6 {5}

42

I/O

ADC1, IRQB, TIM1C1

30

PB5

43

I/O

ADC0, TIM2CLK, TIM1MSK

31

GND

GND

GND

32

Vcc

Vcc

Vcc

33

GND

GND

GND

Table 3: Pin Information

Notes:

{1} When the alternate function is selected, TX_ACTIVE becomes an output that indicates that the EM35x

radio circuit is in transmit mode. PC5 is not usable on the long range version of the ETRX35x as this
GPIO is used internally as TX_ACTIVE to control the external RF frontend.

{2} The serial UART connections TXD, RXD, CTS and RTS are PB1, PB2, PB3 and PB4 respectively.

The device sends its data on TXD and receives on RXD.

{3} When using the Telegesis AT Commandset, RTS/CTS handshaking is selectable in firmware. See

the AT Command Manual.

{4} If PA5 is driven low at power-up or reset the module will boot up in the bootloader

{5} PA6, PA7, PB6, PB7 and PC0 can drive high current (see section 8)

{6} nRESET is level-sensitive, not edge-sensitive. The module is held in the reset state while nRESET is

low.

See also the table “Module pads and functions” in the ETRX357 Development Kit Product Manual.
Refer to Ember’s EM357 manual for details of the alternate functions and pin names.