EnOcean Scavenger STM 429J User Manual

EnOcean GmbH
Kolpingring 18a
82041 Oberhaching
Germany

Phone +49.89.67 34 689-0
Fax +49.89.67 34 689-50
info@enocean.com
www.enocean.com

USER MANUAL

Scavenger Transmitter Module

STM 429J

(STEPCODE: DE and later)

Patent protected:

WO98/36395, DE 100 25 561, DE 101 50 128,
WO 2004/051591, DE 103 01 678 A1, DE 10309334,
WO 04/109236, WO 05/096482, WO 02/095707,
US 6,747,573, US 7,019,241

Observe precautions! Electrostatic sensitive devices!

Scavenger Transmitter Module
STM 429J

May 21, 2019

USER MANUAL

Scavenger Transmitter Module

STM 429J

(STEPCODE: DE and later)

© 2019 EnOcean | www.enocean.com STM 429J User Manual | v3.0 | May 2019 | Page 2/ 19

REVISION HISTORY

The following major modifications and improvements have been made to the first version of
this document:

No

Major Changes

1.0

Initial version

1.1

Added marking and STM 425J.

1.2

Editorial corrections.

1.3

Changed PCB / System Drawings – STM 425J and STM 429J. Added radio certifi­cate.

1.31

Changed helical antenna picture

2.0

Update of revision with consolidation and small corrections.

3.0

Update with long term energy storage replacement, additional transport mode for
shelf storage & air cargo, optimized secure mode, new drawings.

Published by EnOcean GmbH, Kolpingring 18a, 82041 Oberhaching, Germany
www.enocean.com, info@enocean.com, phone ++49 (89) 6734 6890

© EnOcean GmbH
All Rights Reserved

Important!

This information describes the type of component and shall not be considered as assured characteris­tics. No responsibility is assumed for possible omissions or inaccuracies. Circuitry and specifications
are subject to change without notice. For the latest product specifications, refer to the EnOcean web­site: http://www.enocean.com.
As far as patents or other rights of third parties are concerned, liability is only assumed for modules,
not for the described applications, processes and circuits.
EnOcean does not assume responsibility for use of modules described and limits its liability to the
replacement of modules determined to be defective due to workmanship. Devices or systems contain­ing RF components must meet the essential requirements of the local legal authorities.
The modules must not be used in any relation with equipment that supports, directly or indirectly,
human health or life or with applications that can result in danger for people, animals or real value.
Components of the modules are considered and should be disposed of as hazardous waste. Local
government regulations are to be observed.
Packing: Please use the recycling operators known to you.

USER MANUAL

Scavenger Transmitter Module

STM 429J

(STEPCODE: DE and later)

© 2019 EnOcean | www.enocean.com STM 429J User Manual | v3.0 | May 2019 | Page 3/ 19

TABLE OF CONTENT

1 GENERAL DESCRIPTION ................................................................................. 4

1.1 Basic functionality ......................................................................................... 4

1.2 Technical data ............................................................................................... 4

1.3 Physical dimensions ....................................................................................... 5

1.4 References ................................................................................................... 6

1.5 Environmental conditions ............................................................................... 6

1.6 Ordering Information ..................................................................................... 7

2 FUNCTIONAL DESCRIPTION ............................................................................ 8

2.1 Commissioning and mode change .................................................................... 8

2.2 Block diagram ............................................................................................... 9

2.3 Radio telegram .............................................................................................. 9

2.4 Secure radio telegram .................................................................................. 10

2.4.1 Switching between modes ........................................................................ 10

2.4.2 Encrypted communication – enhanced security mode ................................... 10

2.4.3 Security Teach-In – enhanced security mode .............................................. 10

2.4.3.1 PSK Security Teach-in - optional ......................................................... 10

2.5 Transmit timing ........................................................................................... 11

2.6 Energy consumption .................................................................................... 12

2.6.1 Consumption in secure mode .................................................................... 13

3 APPLICATIONS INFORMATION ....................................................................... 14

3.1 Antenna Details ........................................................................................... 14

3.2 Transmission range ..................................................................................... 15

3.3 Connecting an external backup battery .......................................................... 15

3.4 Mounting 429J into a housing ........................................................................ 16

3.5 QR code .................................................... Fehler! Textmarke nicht definiert.

3.5.1 Included Information: ............................. Fehler! Textmarke nicht definiert.

4 AGENCY CERTIFICATIONS ............................................................................ 17

5 Label Information ........................................................................................ 18

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Scavenger Transmitter Module

STM 429J

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1 GENERAL DESCRIPTION

1.1 Basic functionality

The radio transmitter modules and 429J from EnOcean
enable the implementation of a wireless magnet contact
sensor.
Powered by a solar cell, it works absolutely mainte­nance-free. An integrated energy store allows operation
for several days even in total darkness.
Key applications are window and door sensors.
STM 429J supervise an integrated reed contact and re­port every status change immediately (open <>
closed). In addition a sign of life signal is transmitted
every 20-30 minutes.
A LRN button and a TX indicator LED are pre-installed on the PCB. On STM 429J they are
oriented upwards. When the LRN button is pressed then a special teach-in signal will be
sent.
STM 429J operate at 928.35MHz using FSK modulation.
STM 429J in enhanced mode provides enhanced security features with encrypted communi­cation.

Features with built-in firmware

 Pre-installed solar cell
 On-board energy storage and charging circuit
 On-board LRN button (operated from above on STM 429J)
 On-board TX indicator LED (pointing upwards on STM 429J)
 On-board reed contact

1.2 Technical data

Antenna

Pre-installed helical antenna installed

Frequency

928.35MHz

Data rate/Modulation type

125 kbps / FSK

Radiated Output Power

Typ. 0dBm

Power Supply

Pre-installed solar cell

Illumination 50-100000 lux

Operation time in darkness @ 25°C

min. 10 days, if energy storage fully charged 1

Operation start up time with empty
energy store

typ. < 2.5 min @ 400 lux / 25°C

incandescent or fluorescent light

Reed contact

1x internal, Meder MK23-90-BV14496 or MK01-I

Radio Regulations

ARIB STD-T108

Security Level Format

24-bit RLC, RLC tx, 3-byte CMAC, VAES encryption

1

At default configuration (wake-up cycle 100 s, transmission cycle 1000 s).

Energy storage performance degrades over life time, especially if energy storage is long time
exposed to very high temperatures. High temperatures will accelerate aging. Very low temperature
will temporary reduce capacity of energy store and this leads to considerable shorter dark time operation.

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STM 429J

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1.3 Physical dimensions

Drawing STM 429J

PCB dimensions 43±0.2 x 16±0.3 x 1±0.1 mm

Module height 6 mm

Weight 5.2 g

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1.4 References

[1] Security of EnOcean Radio Networks - http://www.enocean.com/en/security-

specification/

[2] Dolphin V4 Core Description - http://www.enocean.com/dolphin-v4-core-

description/

[3] Dolphin V4 API - http://www.enocean.com/en/enocean-software/
[4] AN509 Explanation of EnOcean security in applications -

http://www.enocean.com/en/application-notes/

[5] AN510 Adding Security to EnOcean Receivers -

http://www.enocean.com/en/application-notes/

[6] AN511 Advanced security in self-powered wireless applications -

http://www.enocean.com/en/application-notes/

[7] Microchip EEPROM Memory - www.microchip.com/serialeeprom/
[8] EnOcean Equipment Profiles - http://www.enocean-alliance.org/eep/

1.5 Environmental conditions

Operating temperature -20 °C … +60 °C

Storage temperature -20 °C … +60 °C, recommended2: +10 °C…+30 °C, <60%r.h.

Shelf life (in absolute darkness) 36 months after delivery3

Humidity 0% … 93% r.h., non-condensing

Deep discharge of the energy storage leads to degradation of perfor­mance. Radio modules will be delivered in transport mode to avoid this. If
there is a storage time after configuration or commissioning, the radio
module has to be switched back to transport mode to reduce power con­sumption to a minimum.

If a storage time of more than 36 months is required, the energy storage

(MS414FE) has to be recharged (e.g. 2 days @ 1.000 lux) or with external 3.1 V.

The module shall not be placed on conductive materials, to prevent discharge of
the internal energy storages. Even materials such as conductive foam (ESD pro­tection) may have negative impact.

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STM 429J

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1.6 Ordering Information

Type

Ordering Code

STM 429J

S3061-D429

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STM 429J

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2 FUNCTIONAL DESCRIPTION

2.1 Commissioning and mode change

The module will be shipped in transport mode to switch off the energy store for long term
shelf storage and air cargo. The mode can be changed by pressing the learn button. The
procedure for enter the standard mode has not been changed to keep compatible with
modules before stepcode DE.

Make sure that the solar cell will get enough light for mode change and/or learn telegram.

 Change from transport to standard mode

After pressing learn button 1x short (1s) the radio module will enter Standard Mode
(Mode 1). A secure learn telegram will be sent and the LED will flash 2x.

 Change from standard to secure mode

After pressing learn button 2x long (2x 5s, pause <1s) the radio module will enter Se­cure Mode (Mode 2). The LED will flash 2x and a secure learn telegram will be sent.

 Change from secure or standard mode to transport mode

After pressing learn button 1x long (5s) the radio module will enter Transport Mode
(Mode 3). A signal telegram will be sent and the LED will flash 3x.

The following diagram illustrates all implemented mode transitions.

Short press: 1 s (firmware 0.1 – 3.0 s)
Long press: 5 s (firmware 3 – 7 s)

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2x long press with very short pause of max. 1 s between

Before changing the operating mode please make sure to clear the device from all
receivers which have been taught to work with this device before. Otherwise the
receiver will ignore the telegrams and the application will not work.

The flag for actual mode itself is stored in non-volatile memory. After power down
reset the previous selected mode is active. The mode change is limited to 50
times. In normal application scenario only very few are required.

2.2 Block diagram

A change of the reed contact status or pushing the LRN button will wake the transmitter
unit to send a radio telegram immediately (reed contact position, LRN push button status,
unique 32-bit sensor ID - at profile teach-in 48 bit ID, checksum).
In addition a redundant retransmission signal is sent to announce the contact status even
in case of no input signal changes. This signal transmitted every 20-30 min, affected at
random. The transmit indicator LED flashes briefly at every radio transmission.
Between the wake-up phases, the device is in sleep mode for minimum power consump­tion.

2.3 Radio telegram

429J transmits a radio telegram according to EnOcean Equipment Profile
EEP D5-00-01 as defined in the EnOcean Equipment Profiles specification.

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STM 429J

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2.4 Secure radio telegram

The STM 429J can be operated in:

 Standard mode – no enhanced security is used. This is the common operation mode,

originally available. This is also the default factory mode.

 Security mode – communication is protected by enhanced security features. This

mode was added later in module evolution.

2.4.1 Switching between modes

Please refer to chapter 2.1.

2.4.2 Encrypted communication – enhanced security mode

In Enhanced mode the data link (DL) content is always protected with advanced security
features. Normal operation DL and also Teach-in DL are protected in the same way. The
security features used are defined by the Security Level format - SLF. This parameter is set
by default to the highest possible level:

 24-bit RLC,
 RLC tx,
 3-byte CMAC,
 VAES encryption

To add security features to the communication the Normal operation DL and Teach-in DL
are encapsulated into a secured telegram. The data content of the telegram is not changed.
Please refer to the EnOcean Security Specification for details.

2.4.3 Security Teach-In – enhanced security mode

To enable security communication the STM 429J has to send a security teach-in telegram to
the other communication partner and so inform him about the used security profile, keys
and initial RLC. The security teach-in has to take place before any other communication can
be executed (profile teach-in included). To trigger the transmission of the teach-in telegram
LRN button is pressed. The security teach-in telegram is transmitted before the profile
teach-in. The following profile teach-in telegram is already protected by advanced security
features.

The process of sending security teach-in telegram and profile teach-in telegram is triggered
by once pressing the LRN button.

The behaviour of the LRN button in enhanced mode is following:

1. Button is pressed

2. Security teach-in is send.

3. Profile teach-in is send.

2.4.3.1 PSK Security Teach-in - optional

The Security Teach-in telegram carries the information of KEY and RLC. This information is
either sent as plain text (as is) or it is protected by the pre-shared key - PSK. The PSK
must be in printed on the transmitting device. To use PSK teach-in, the PSK must be read
by the end-user and entered into the other communication partner. For this purpose the
EnOcean radio interface cannot be used. The PSK can be entered trough a user interface or
semi-automated by a code reader.

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For details on the PSK Teach-in please refer to the EnOcean Security Speification.

PSK feature is disabled by default. To enable PSK feature the execute configuration in Dol­phin Suite with special adapter.

2.5 Signal telegram

After pressing the LRN button for 5 seconds a signal telegram (data: 0x0E) will be sent and
the module enters the transport mode. Signal telegram is used for the purpose to inform
the nearby receivers this device will stop radio transmission.

For details please refer to the EnOcean Equipment Profiles specification.
(http://www.enocean-alliance.org/eep/)

2.6 Transmit timing

The setup of the transmission timing allows avoiding possible collisions with data packages
of other EnOcean transmitters as well as disturbances from the environment.
Within each transmission cycle, 3 identical sub-telegrams are transmitted within 25 ms.
In case of case of encrypted operation only 2 sub telegrams are transmitted.

The transmission of one sub-telegram lasts approximately 0.9 ms (normal) or 1.7 ms (se­cured).

See EnOcean Radio Protocol 2 for detailed timings.

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2.7 Energy consumption

Following diagram illustrates a complete cycle in standard mode which starts with controller
active phase (setup, measurement etc.) immediately followed by a telegram transmit. After
short sleep phase the controller will get active two times and send two telegrams.

Prerequisites for example calculation:

 Internal energy storage MS412FE with usable capacity of about 0.7 mAh

https://www.sii.co.jp/en/me/datasheets/ms-rechargeable/ms412fe-5/
(voltage range 2.4 - 3 V at 25 °C)

 Solar cell ECS 200 delivers at 200 lux about 5 µA

https://www.enocean.com/de/enocean-module/details/ecs-300/

 Power consumption wake-up and transmit cycle standard mode: 100 µAs
 Power consumption wake-up and transmit cycle secure mode: 140 µAs
 10 reed contact changes per day (e.g. 5x window open/close)
 Average leak current of STM 429J at 25°C: 0.5 uA
 Wake-up cycle 20 - 25 min (average 1.500 s) for status telegram
 8 h light per day (24 h) light @ 200 lux and 25°C

Example calculation of the energy consumption with following parameters:

Current consumption (depending on amount of wake-ups due to reed contact change):

 Current consumption for status telegrams and sleep:

100 uAs / 1,500 s + 0.5 uA = 0.57 uA

 Power consumption for 10 reed contact changes incl. additional transmits per day:

100 uAs / (60 x 60 x 24 s) = 1.2 nA = 0.0012 uA)

 Average current consumption: 0.57 uA
 Average solar power harvested: 5uA / (8 h / 24 h) = 1.67 uA

 Time to fully charge energy storage (2.4 to 3.0 V) at stable temperature:

0.7 mAh / (1.67 uA – 0.57 uA) = 636 h = 27 days

 Average operation time in darkness when fully charged (3.0 V to 2.4 V):

0.7 mAh / 0.57 uA = 1,228 h = 51 day

Remarks:

 Calculation examples and values have tolerances of about +/- 20%.
 Energy storage performance, power consumption and solar cell performance varies

over temperature.

 Energy storage performance degrades over life time, especially if energy storage is

long time exposed to very high temperatures. High temperatures will accelerate ag­ing, each 10 K increase from 25°C will half expected life time. Very low temperature
will temporary reduce capacity of energy store and this leads to considerable shorter
dark time operation.

 Short wake-up cycles (e.g. 1 s) and transmit intervals (e.g. 1 s) significantly reduce

energy storage performance, for this use case an external power supply is recom­mended

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2.7.1 Consumption in secure mode

Enhanced security mode requires more energy due to encryption algorithm computing time
and extended telegram length because of CMAC. This added consumption is compensated
by reducing the subtelegram count to 2. With this measure the operation in dark time is
even little bit increased.

There it is to assume the operation in dark time is not reduced by using enhanced security.

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3 APPLICATIONS INFORMATION

3.1 Antenna Details

Antenna location recommendation

429J without host PCB 429J with host PCB

Host PCB

GND plane

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3.2 Transmission range

The main factors that influence the system transmission range are type and location of the
antennas of the receiver and the transmitter, type of terrain and degree of obstruction of

the link path, sources of interference affecting the receiver, and “Dead” spots caused by

signal reflections from nearby conductive objects. Since the expected transmission range
strongly depends on this system conditions, range tests should categorically be performed
before notification of a particular range that will be attainable by a certain application.

The following figures for expected transmission range are considered as a rough guide only:

 Line-of-sight connections: Typically 30 m range in corridors, up to 100 m in halls
 Plasterboard walls / dry wood: Typically 30 m range, through max. 5 walls
 Ferroconcrete walls / ceilings: Typically 10 m range, through max. 1 ceiling
 Fire-safety walls, elevator shafts, staircases and supply areas should be considered as

screening.

The angle at which the transmitted signal hits the wall is very important. The effective wall
thickness – and with it the signal attenuation – varies according to this angle. Signals
should be transmitted as directly as possible through the wall. Wall niches should be avoid­ed. Other factors restricting transmission range:

 Switch mounted on metal surfaces (up to 30% loss of transmission range)
 Hollow lightweight walls filled with insulating wool on metal foil
 False ceilings with panels of metal or carbon fiber
 Lead glass or glass with metal coating, steel furniture

The distance between EnOcean receivers and other transmitting devices such as comput­ers, audio and video equipment that also emit high-frequency signals should be at least

0.5 m.

A summarized application note to determine the transmission range within buildings is
available as download from www.enocean.com.

3.3 Connecting an external backup battery

In case there is not sufficient light available for operation with solar cell an external 3 V
Lithium backup battery can be connected to the module at the soldering pads shown below:

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3.4 Mounting 429J into a housing

The figure below shows an example of a housing in which the module can be mounted (with
antenna pointing to the left).
Design data of the housing and the modules is available in .igs format.

To prevent damage, please make sure not to exert shear force (side force within
the plane of the solar cell) onto the solar cell or the module itself!
The maximum vertical force onto the solar cell must not exceed 4 N and should be
homogeneously distributed!
Bending of the PCB must be avoided!

Please make sure that the housing covers 0.5 mm at the solar cell edges.
Within 0.5 mm off the edge flaking is possible due to the cutting process.

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4 AGENCY CERTIFICATIONS

STM 429J have been designed and tested to fulfil the approval requirements for ARIB STD­T108 based on the built-in firmware.

When the product is placed on the Japanese market, it must carry the Specified Radio
Equipment marking as shown below:

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5 Label Information

1. Product name - „STM 429J“

2. Step Code „xy“

3. Date Code “KW/YY”: e.g. 15/13

4. Status „D431-z“: e.g 1

5. DMC

6. ARIB Marking, radius 3mm

7. ARIB Marking with number (003-130160)

5.1 QR Code label

5.1.1 Included Information:

[30S00000502CB78+ ZBA2054A875E77768C7740157BDF9CF68+30PS3061-

D431+2PDB08+S01123456123456]

30S00000502CB78 15 CHARS 30S<6 Byte Chip-ID>
+ 1 CHAR
13ZBA2054A…….68 33 CHARS 13Z<32 Digit Key>
+ 1 CHAR
30PS3061-D431 13CHARS 30P<Order code>
+ 1 CHAR
2PDB08 6 CHARS 2P<2 Digit Stepcode><2 Digit Status>
+ 1 CHAR
Sxxyyyyyyyyyyyy 15 CHARS S<2 Digit MAN>

<12 Digit DMC/Seriennummer>

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5.1.2 QR-Code Specification

QR-Code Version: 4 (33x33 pixel)
Error Correction Level: M (15% error correction)
Mode: Alphanumeric Mode
Character Capacity: 90

Keep off are around the code: 2 Pixel (UP, Down, Left und Right)
Pixel Size: min. 4x4 points per Pixel

600dpi x 600dpi Resolution:
1 Printpoint: 0.0423mm x 0.0423mm
1 Pixel: 0.1693mm x 0.1693mm