EnOcean PTM 210, PTM 215, PTM 215U, PTM 215J User manual

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USER MANUAL

PTM 210 / PTM 215 / PTM 215U / PTM 215J
DC Step code and later

PTM 210 / PTM 215
PTM 215U
PTM 215J

Pushbutton transmitter modules

DC Step code and later

The product is protected by the following granted Patents:

US7710227, DE10315765B4

US9614553, EP1312171B1, CN100508406C

EP1389358B1, JP4225792B2

US7019241, EP1550202B1, DE50303733D1, CN1689218B

US7391135, EP1611663B1, DE10315764B4,

US8502470, JP5617103B2

EP2524572B1

And also by pending or not yet published Patents and Designs.

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DC Step code and later

REVISION HISTORY

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

No

Major Changes

2.0

Update to modules with step code DC.

2.1

Update of certification numbers in US and Japan.

2.2

Update of certificate and product releases chapter.

2.3

Extended mode change description, added product safety recommendations for
final product. Small corrections.

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
devices, not for the described applications, processes and circuits.

EnOcean does not assume responsibility for use of devices described and limits its liability to
the replacement of devices determined to be defective due to workmanship. Devices or sys­tems containing RF components must meet the essential requirements of the local legal au­thorities.

The devices 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 devices 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. By agreement we will take packing
material back if it is sorted. You must bear the costs of transport. For packing material that
is returned to us unsorted or that we are not obliged to accept, we shall have to invoice you
for any costs incurred.

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USER MANUAL

PTM 210 / PTM 215 / PTM 215U / PTM 215J
DC Step code and later

TABLE OF CONTENT

1 GENERAL DESCRIPTION ............................................................... 5

1.1 Product variants and ordering codes ...................................................... 5

1.1.1 Previous / other product variants ....................................................................... 6

1.2 Basic Functionality ............................................................................. 6

1.3 Typical Applications ............................................................................ 8

1.4 Technical Data .................................................................................. 10

1.5 Mechanical Interface .......................................................................... 10

1.6 Environmental Conditions ................................................................... 11

1.7 References ....................................................................................... 11

2 FUNCTIONAL DESCRIPTION ........................................................ 12

2.1 Block Diagram .................................................................................. 12

2.2 Contact Nipples Assignment ................................................................ 13

2.3 Available EnOcean Equipment Profiles .................................................. 13

3 OPERATING MODES ................................................................... 15

3.1 Normal Mode Operation...................................................................... 15

3.2 Secure Mode Operation ...................................................................... 15

3.2.1 Implicit RLC – legacy, not recommended ........................................................... 17

3.2.2 Explicit RLC – recommended ........................................................................... 17

3.2.3 Security Teach-in ........................................................................................... 17

3.3 Switching between modes .................................................................. 18

3.4 Factory Reset ................................................................................... 20

4 RADIO COMMUNICATION ............................................................ 21

4.1 ERP 1 Communication ........................................................................ 21

4.1.1 ULP Frames ................................................................................................... 21

4.1.2 Common Frames ............................................................................................ 23

4.2 ERP 2 Communication ........................................................................ 24

4.2.1 Normal Mode Telegram ................................................................................... 24

4.2.2 Secure Mode Telegram ................................................................................... 24

4.3 Redundant transmission ..................................................................... 24

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USER MANUAL

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DC Step code and later

5 CONFIGURATION VIA NFC – PTM 215 / PTM 215J / PTM 215U ......... 25

5.1 NFC Interface Overview...................................................................... 25

5.2 NFC Access Protection ........................................................................ 25

5.3 NFC Parameters – Memory Map ........................................................... 25

5.3.1 Device Identification NDEF .............................................................................. 27

5.3.2 User Information NDEF ................................................................................... 27

5.3.3 NFC Header ................................................................................................... 27

5.3.4 Configuration ................................................................................................. 29

5.4 NFC Interaction with the PTM Application .............................................. 33

5.5 NFC Interface Tools ........................................................................... 33

5.5.1 EnOcean Tool ................................................................................................ 33

5.5.2 EnOcean NFC Configurator .............................................................................. 35

5.5.3 Including NFC Functionality into Existing Customer Tools .................................... 35

6 APPLICATIONS INFORMATION ..................................................... 37

6.1 Product Label ................................................................................... 37

6.2 Content of QR codes .......................................................................... 39

6.3 Construction of application specific Switch Rockers ................................. 40

6.4 Device Mounting ............................................................................... 41

6.5 Transmission Range .......................................................................... 42

7 AGENCY APPROVALS .................................................................. 43

7.1 PTM 210 and PTM 215: Radio Approval for the European Market ............... 43

7.3 PTM 215U: FCC and Industry Canada Regulatory Statements ................... 44

7.4 PTM 215J: Japanese Type Approval ...................................................... 45

8 PRODUCT SAFETY INSTRUCTIONS ............................................... 46

9 PRODUCT RELEASES .................................................................. 47

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USER MANUAL

PTM 210 / PTM 215 / PTM 215U / PTM 215J
DC Step code and later

1 GENERAL DESCRIPTION

The pushbutton transmitter family PTM 21x from EnOcean enables the implementation of
wireless switches and remote controls without batteries. The PTM 21x pushbutton transmit­ters are self-powered (no batteries) and therefore maintenance-free. The power is provided
by a built-in electro-dynamic power generator.

The main application are wireless switches in smart buildings. Products based on PTM 21x
modules can also be used in hermetically sealed systems or in remote (not easily accessible)
locations.

PTM 21x devices are available in variants supporting the 868 MHz, 902 MHz and 928MHz
radio interface protocols of EnOcean Alliance Radio Standard ERP 1 & ERP 2.

Figure 1 Electro-dynamic powered pushbutton transmitter module PTM 21x

With the major product update to the step code DC an additional NFC interface was added
and the security mode option was extended to all PTM21x family members and frequencies.

1.1 Product variants and ordering codes

The PTM 21x product family contains the following product variants with product revision DC:

Type

Frequency

Ordering Code

Product specifics

PTM 210

868.300 MHz

S3001-A210

Encryption capability

PTM 215

868.300 MHz

S3001-A215

Encryption capability & NFC Interface

PTM 215U

902.875 MHz

S3051-A215

Encryption capability & NFC Interface

PTM 215J

928.350 MHz

S3061-A215

Encryption capability & NFC Interface

Table 1 Product Variants

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DC Step code and later

1.1.1 Previous / other product variants

Previous versions of the PTM 21x product family (identified by step codes (DA and DB) contain
only a subset of the functionality described in the document. Should you need information
related to these products then please do not use this document as reference and refer to
EnOcean support (support@enocean.com) for more details.

This document describes PTM modules with the EnOcean Radio Standard. For other radio
standards PTMs (e.g. BLE, ZigBee) please visit the EnOcean Product page1 and select the
product type to find the available information.

1.2 Basic Functionality

PTM 21x devices contain an electro-dynamic energy transducer which is actuated by a bow.

Figure 2 Drawing with highlighted energy bow

This bow is pushed by an appropriate push button, switch rocker or a similar construction
mounted onto the device. An internal spring will release the energy bow as soon as it is not
pushed down anymore.

When the energy bow is pushed down, electrical energy is harvested and a radio telegram is
transmitted. Releasing the energy bow similarly generates energy which is used to transmit
an another radio telegram.

1

https://www.enocean.com/en/products/

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DC Step code and later

Figure 3 Energy bow released & pressed

It is therefore possible to distinguish between radio telegrams sent when the energy bow was
pushed and radio telegrams sent when the energy bow was released. This makes it possible
to distinguish between button press and button release actions.

By identifying these different telegrams types and measuring the time between pushing and
releasing at the receiver, it is possible to distinguish between “Long” and “Short” push button
presses. This enables simple implementation of applications such as dimming or blinds con­trol.

The radio telegram used by PTM 21x devices identifies the status of the four contact nipples
when the energy bow was pushed or released. This enables the implementation of up to two
switch rockers or up to four pushbuttons.

Figure 4 Drawing with highlighted coding nipples

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DC Step code and later

All PTM 21x devices support two operating modes - a normal mode and a secure mode with
rolling code encryption to enable use in secure applications.

Additionally, to the EnOcean Radio interface the PTM 215 modules include a NFC interface
for device configuration. This NFC interface is powered by the NFC field of an NFC Reader or
an NFC capable smartphone. This makes the communication with the PTM 215 modules pos­sible even when the PTM is not being actuated. With a smartphone and an App e.g. EnOcean

Tool or with an NFC Reader and a PC tool e.g. EnOcean NFC Configurator it is therefore

possible to read information about the PTM module and write configuration parameters.

1.3 Typical Applications

PTM 21x modules are commonly used in the following areas:

 Building installation

 Industrial automation

 Consumer electronics

Key products include wall-mounted switches and handheld remote controls supporting up to
two rockers or up to four pushbuttons.

Please find below two examples of an PTM module assembled into a white housing. The left
example shows a double rocker application and the right a single rocker application. This is
commonly used in the European market. A wide range of custom designs with different
shapes, materials and colours can be used together with PTM modules as long they respect
the standardized mechanical interface. Refer to the PTM module mounting instructions for
details [1]. This allows customizable designs with well tested and promoted PTM modules.

Figure 5 Example of an assembled PTM Module (single and double rocker wall switch)

To illustrate the stack up in complete switch please find below an explosion drawing show­ing a possible switch frame mounting with highlighted PTM module highlighted red.

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Figure 6 Explosion drawing of complete wall switch with highlighted PTM Module

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1.4 Technical Data

Power supply Electro-dynamic power generator

Antenna PCB antenna

Frequency PTM 210: 868.300 MHz (ASK)2

PTM 215: 868.300 MHz (ASK)

1

PTM 215U: 902.875 MHz (FSK)

PTM 215J: 928.350 MHz (FSK)

Data rate 125 kbps

Conducted output power PTM 210 / PTM 215 / PTM 210U: +5 dBm

PTM 210J: 0 dBm

Channels Two channels with two pushbuttons per channel
Four action states per channel (upper/lower/pressed/not pressed)

EnOcean Radio Standard ERP1 based on ISO/IEC 14543-3-10: PTM 210, PTM 215

ERP2 based on ISO/IEC 14543-3-11: PTM 215U, PTM 215J

EnOcean Equipment Profile supported F6-02-xx, F6-04-xx (normal mode)
D2-03-00 (secure mode)

Security mode Rolling code with AES128

Transmission range PTM 210 / PTM 215 / PTM 210U: typ. 300 m free field, typ. 30 m indoor

PTM 210J: typ. 200m free field, typ. 30m indoor

Device identifier Individual 32 or 48 bit ID (factory programmed)

Redundant sub-telegram count per radio transmission 3 normal mode / 2 secure mode

Radio approvals RED 2014/53/EU (PTM 210 / 215)

IC/FCC CFR-47 Part 15 (PTM 215U)
ARIB STD-T108 (PTM 215J

1.5 Mechanical Interface

Device dimensions (inclusive rotation axis and energy bow) 40.0 x 40.0 x 11.2 mm

Device weight 20 g ± 1 g

Energy bow travel / operating force 1.8 mm / typ. 9 N

At room temperature

Restoring force at energy bow typ. 0.7 N to 4 N

Minimum restoring force of 0.5 N is required for correct operation

Number of operations at 25°C typ. 100.000 actuations tested according to EN 60669 / VDE 0632

Cover material Hostaform (POM)

Energy bow material PBT (50% GV)

2

According the international standard for energy harvesting wireless radio protocol for self-powered applications:

ISO/IEC 14543-3-10

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1.6 Environmental Conditions

Operating temperature -25 °C up to +65 °C3

Storage temperature -25 °C up to +65 °C

Humidity 0% to 95% r.h.

Typical max. temperature difference between the PTM module (TX) and a receiver
(RX) should not be bigger than 60 C°.

1.7 References

[1] Mounting Instructions PTM

https://www.enocean.com/products/enocean_modules/ptm-215/

[2] 2D and 3D model for PTM Rockers

https://www.enocean.com/products/enocean_modules/ptm-215/

[3] Enocean Alliance Standards (incl. EEP, Security, Labelling, NFC)

https://www.enocean-alliance.org/specifications/

[4] EnOcean Radio Protocol 1&2

https://www.enocean.com/en/support/knowledge-base/

3

Operation below – 10°C might result in reduction of redundant sub telegram counts by 1.

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2 FUNCTIONAL DESCRIPTION

2.1 Block Diagram

Figure 7 Block diagram of PTM 21x

Energy Generator / Energy Bow

Converts the motion of the energy bow into electrical energy. This is the main energy
source for the operation of PTM Modules.

Energy Converter

Converts the energy of the energy generator into a stable DC supply voltage for the device
electronics.

Energy Management

Secures energy supply of the module for the required period. The generator provides an
burst of energy which needs to be conserved for the much longer period than the burst
lasts.

Microcontroller

Determines the status of the contact nipples and the energy bow, encodes this status into a
EnOcean Data telegram, if required it encrypts this data and computes the authentication
signature, generates the proper radio telegram structure and sends it to the radio
transmitter.

RF Transmitter

Transmits the data as a series of short EnOcean radio telegrams.

Contact Nipples

Via the 4 contact nipples the rockers or other custom plastics can code specific information
into the radio telegram triggering different functions at the receiver.

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NFC Interface

The NFC interface represents the second communication interface of the PTM and it is de­signed for commissioning of the PTM device. Using the NFC module information, modes and
runtime parameters can be read and in selected parameters also written.

2.2 Contact Nipples Assignment

PTM 21x devices provide four contact nipples. They are grouped into two channels (Channel
A and Channel B) each containing two contact nipples (State O and State I). Resulting the
nipples are referred to as: AO, AI, BO and BI.

The state of all four contact nipples is transmitted together with a unique device identification
whenever the energy bow is pushed or released as a part of an EnOcean radio telegram. The
exact encoding is defined in the EEP Profile. Which EEP is used is based on the Radio Standard
(ERP1 or ERP2) and operating mode (normal or secure). See chapter 2.3 for details on used
EEPs.

The picture below shows the arrangement of the four nipples and their designation:

Figure 8 Contact nipple designation

2.3 Available EnOcean Equipment Profiles

The (EnOcean Equipment Profile) EEP profile defines how the data inside the EnOcean tele­gram is encoded. It practically means how the nipples and energy bow state are represented

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in the radio telegram. Based on the EEP the receiver knows how to interpret telegrams re­ceived from a PTM module.

In contrast to sensors which usually support one profile at a time, the encoding of PTM module
does not vary between profiles (RPS profiles) and it up to the receiver to decide how the data
should be interpreted. The receiver can describe what action (switch on / off the light, dim
up / down, move shutters, …) to take. This makes PTM modules very flexible to use.

The table below summarizes the EEP supported by the different members of the PTM 21x
product family.

Normal Mode

Secure Mode

ERP 1
(PTM 210, PTM 215)

F6-01-01
F6-02-01
F6-02-02
F6-02-03
F6-04-01

D2-03-00

ERP 2

(PTM 215J, PTM 215U)

F6-02-04
F6-04-02

D2-03-00

Table 2 Possible EEPs

For the normal mode profiles (Starting with F6) there is no EEP Teach-in message sent. For
secure mode profile (starting D2) there is Secure Teach In. See chapter 3.2.3 for details.

TCM 515U and TCM 310U convert ERP2 profiles to EPR1 profiles internally. On the
ESP3 interface the messages look like “ERP1”.

Due to the mechanical hysteresis of the energy bow, in most rocker switch device
implementations, pressing the rocker sends an N-message and releasing the
rocker sends a U-message.

Note that PTM 21x in will not send a data telegram when pressing 2, 3 or 4 nipple
SBC and actuating the energy bow. This button combination is reserved for mode
change. Please see chapter 3.3 for details.

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3 OPERATING MODES

This chapter describes the standard “out of the box” behaviour of PTM 21x devices. This
standard behaviour e.g. mode selection or secure teach-in telegram transmission can be
altered by the NFC Interface. Please refer to the chapter 5.4 for details.

PTM 21x devices support two operating modes:

 Normal mode
 Secure mode, this mode has two additional sub options

o Implicit RLC (legacy, not recommended)
o Explicit RLC (recommended)

In production the PTM 21x is set into “normal mode” operation. This is therefore the “out of
the box” behaviour of PTM 21x devices.

3.1 Normal Mode Operation

In normal mode, PTM 21x transmits telegrams in the EEP profile respectively defined by ERP1
or ERP2. Please refer to Chapter 2.3. for details.

In Normal mode, transmission of PTM 21x modules is secured by the secure concept includes
unique transmitter IDs. This means EnOcean products cannot be configured to transmit with
identical transmitter ID except for the special case of Base IDs.

3.2 Secure Mode Operation

While operating in secure mode, the PTM 21x sends secure telegrams in accordance to
EEP D2-03-00. Please refer to Chapter 2.3. for details.

In secure mode, the PTM modules use advanced security protection with data encryption and
message authentication. These mechanisms offer effective protection against a series of dif­ferent attacks. One of the most concerning are Eavesdropping and Replay attacks.

Eavesdropping means somebody can receive and interpret the data correctly. Replay attacks
means an intruder receives and records the message to be retransmitted (replayed) later in
order to trigger an action.

An illustration of these attack scenarios are shown in the figure below.