Dolphin Tcm 330 User manual

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

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!

TCM 330 / TCM 330U

11.08.2016

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

REVISION HISTORY

The following major modifications and improvements have been made to this document:

Version

Author

Reviewer

Date

Major Changes

1.0

MKA

01.09.2015

Initial Release

1.1

MKA

11.08.2016

Addition of TCM 330 (868.3 MHz variant)

Published by EnOcean GmbH, Kolpingring 18a, 82041 Oberhaching, Germany

www.enocean.com, info@enocean.com, phone +49 (89) 6734 6890

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 specifica-

tions, 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 V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

TABLE OF CONTENT

1MODULE VARIANTS AND RELATED DOCUMENTS ...............................................5

2GENERAL DESCRIPTION.................................................................................6

2.1 Basic functionality .........................................................................................6

2.2 Technical data TCM 330 / TCM 330U................................................................7

2.3 Physical dimensions.......................................................................................8

2.4 Environmental conditions ...............................................................................8

2.5 Ordering information......................................................................................8

3HARDWARE DESIGN DESCRIPTION..................................................................9

3.1 Pin out.........................................................................................................9

3.2 Pin description ............................................................................................ 10

3.3 Absolute maximum ratings (non-operating).................................................... 11

3.4 Maximum ratings (operating)........................................................................ 11

3.5 System design ............................................................................................ 12

3.5.1 Power supply....................................................................................... 12

3.5.2 0–10V output driver.............................................................................13

3.5.3 Relay output .......................................................................................14

3.5.4 Zero cross detection.............................................................................15

3.5.5 EEPROM .............................................................................................16

3.5.6 Antenna .............................................................................................17

3.5.6.1 Overview ......................................................................................... 17

3.5.6.2 Whip antenna................................................................................... 18

3.5.6.3 Helix antenna................................................................................... 18

3.5.6.4Chip antenna (Mitsubishi Material, Type AM11DG-ST01) ........................ 19

3.5.7 Local interface.....................................................................................20

3.5.7.1 Pushbutton interface .........................................................................20

3.5.7.2 LED interface.................................................................................... 20

3.5.8 Programming and configuration interface................................................21

3.5.8.1 Reset and programming input protection .............................................22

4FUNCTIONAL INFORMATION.........................................................................23

4.1 General description...................................................................................... 23

4.2 System components ....................................................................................23

4.3 LED zone controller......................................................................................24

4.3.1 PWM output functionality......................................................................25

4.3.2 Status message functionality.................................................................25

4.3.3 Repeater functionality ..........................................................................26

4.4 Wireless switches ........................................................................................ 27

4.4.1 Functional behaviour of wireless switches ...............................................28

4.5 Wireless occupancy sensors.......................................................................... 29

4.5.1 Functional behaviour of wireless occupancy sensors.................................30

4.5.2 Functionality depending on system configuration.....................................31

4.5.2.1 Occupancy sensor in stand-alone mode ............................................... 31

4.5.2.2 Occupancy sensor and switches ..........................................................32

4.6 Wireless light level sensors...........................................................................33

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

4.6.1 Functional behaviour of wireless light level sensors..................................34

4.6.1.1 Five point dimming............................................................................ 35

4.6.1.1.1 Dimming curve adjustment ................................................................36

4.6.1.2 Two level dimming............................................................................ 37

4.6.2 Functionality depending on system configuration.....................................38

4.6.2.1 Light Level Sensor in Stand-alone Mode...............................................38

4.6.2.2 Light Level Sensor and Switches.........................................................39

4.6.2.3 Light Level Sensor and Occupancy Sensors ..........................................40

4.6.2.4 Light Level Sensor with Occupancy Sensors and Wireless Switches..........41

4.7 Central controllers....................................................................................... 42

4.7.1 Functional behaviour of central controllers..............................................42

4.8 Demand response controllers........................................................................42

4.8.1 Functional behaviour of central controllers..............................................42

5SYSTEM CONFIGURATION ............................................................................ 43

5.1 Local configuration interface.........................................................................43

5.1.1 Linking............................................................................................... 43

5.1.2 Device reset........................................................................................ 43

5.1.3 Setting the minimum output voltage......................................................44

5.1.4 Linking............................................................................................... 44

5.1.4.1 Linking to transmitters (transmit-only) ................................................ 45

5.1.4.2 Linking to transceivers (transmit & receive)..........................................46

5.2 Factory-configurable parameters...................................................................47

5.3 Remote commissioning ................................................................................ 48

5.3.1 Navigan™ Wireless Commissioner..........................................................48

5.3.2 Configurable Parameters....................................................................... 49

6APPLICATION INFORMATION ........................................................................51

6.1 Transmission range .....................................................................................51

6.2 Recommendations for laying a whip antenna ..................................................52

6.3 Layout recommendations .............................................................................53

6.3.1 Recommended foot pattern................................................................... 54

6.3.2 Soldering information........................................................................... 56

6.3.3 Tape & Reel specification TCM 330.........................................................57

7REGULATORY INFORMATION.........................................................................58

7.1 FCC (United States) Certification...................................................................58

7.1.1 FCC Regulatory Statements ..................................................................60

7.2 IC (Industry Canada) Certification ................................................................. 61

7.2.1 Industry Canada Regulatory Statements.................................................62

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

1MODULE VARIANTS AND RELATED DOCUMENTS

This document describes operation of TCM 330 modules available in variations for following

frequencies:

nTCM 330: 868.300 MHz

nTCM 330U: 902.875 MHz

Within this user manual the term TCM 330 is used to describe both TCM 330 and TCM 330U

unless otherwise noted.

For system development we recommend following our application notes, in particular:

nAN101: Power Supply Layout – Layout considerations for Line-Power

nAN102: Antenna Basics – Basic Antenna Design Considerations for EnOcean based

Products

nAN405: TCM 330 Integration

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

2GENERAL DESCRIPTION

2.1 Basic functionality

The LED Controller TCM 330 enables implementation of LED Zone Controllers with or with-

out relay functionality. Such controllers use wireless technology to communicate with other

self-powered EnOcean based products to provide simple yet powerful solutions for dimming

control of LED lighting.

TCM 330 can control the dim level of connected LED light sources based on input from the

following devices:

nUp to 20 switches

nUp to 10 occupancy sensors

n1 light level sensor

n1 central controller

n1 demand response controller

TCM 330 enables advance lighting control compliant with California Title 24 daylight har-

vesting scenarios.

TCM 330 enables both simple configuration via a local 2 button interface and advanced

over-the-air parameterization using the EnOcean Remote Commissioning standard and the

Navigan NWC 300 installation tool.

Built-in operating modes

nSwitch ON / OFF and Dim UP / DOWN based on input from switches

nOccupancy-controlled lighting based on input from occupancy sensors

nDaylight-controlled lighting based on input from a light level sensor

nCentral control based on input from a gateway or controller

nDemand response based on input from a demand response controller

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

2.2 Technical data TCM 330 / TCM 330U

Antenna

External antenna (whip, chip or 50 Ω antenna)

Frequency

868.300 MHz (TCM 330) / 902.875MHz (TCM 330U)

Radio standard (Modulation)

ASK 1) / FSK 2)

Data rate

125 kbps

Receiver sensitivity (typ. at 25 °C) 3)

typ. –96 dBm (TCM 330) / -98 dBm (TCM 330U)

Conducted output power @50 Ω(typ.)

typ. +5 dBm (TCM 330) / +1 dBm (TCM 330U)

Power supply

3.0 V– 3.3V

Current Consumption (typ.)

Receive mode: 33 mA

Transmit mode: 24 mA

Start-up time

<500 ms

Control outputs

Relay control and PWM

User interface

2 digital inputs (LRN, DIM)

2 digital outputs for LEDs

Supported EEPs

Occupancy sensors A5-07-01, A5-07-02, A5-07-03

Light sensors A5-06-02, A5-06-03

Rocker switch F6-02-02

Central controller A5-38-08

Demand response A5-37-01

Status message D2-40-00

Operating temperature

-25°C to +85°C (-10°F … 180°F)

Dimensions of PCB

22 mm x 19 mm x3 mm (0.87” x 0.75” x 0.12”)

Weight

1.9 g

Radio Regulations

R&TTE (TCM 330) / FCC, IC (TCM 330U)

1) according to ISO/IEC 14543-3-10

2) according to ISO/IEC 14543-3-11

3) @ 0.1% telegram error rate (based on 3 transmitted sub-telegrams)

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

2.3 Physical dimensions

Note that the soldering pads are located on the bottom side of PCB.

PCB dimensions 22 x 19 x 3.1 mm

Weight 1.9 g

2.4 Environmental conditions

Operating temperature -25 °C … +85 °C

Storage temperature -40 °C … +85 °C

Storage temperature in tape & reel package -20 °C … +50 °C

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

2.5 Ordering information

Type

Ordering Code

Frequency

TCM 330

S3003-K330

868.300 MHz

TCM 330U

S3053-K330

902.875 MHz

Unless otherwise specified, all

dimensions are in mm.

Tolerances:

PCB outline dimensions: ±0.7 mm

All other tolerances: ±0.1 mm

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3HARDWARE DESIGN DESCRIPTION

3.1 Pin out

The figure above shows the pin out of the TCM 330 LED Controller module.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.2 Pin description

HW Symbol

TCM 330

pin #

Function

Comments

GND

1, 5, 7,

17, 24,

26, 28, 31

Ground connection

Must be connected to GND

VDD

Supply voltage

2.6 V – 3.3 V Max. ripple: see 3.4

RVDD

Internal regulator

Unused, leave open

DVDD

Internal regulator

Unused, leave open

IOVDD

VDD for IO Functions

Connect to VDD

RF_WHIP

RF output

Output for whip antenna

RF_50

RF output

50 Ohm output for external antenna

ADIO0

I2C - SCL

Connect to external EEPROM

(

Microchip 24AA08, see 3.5.5)

ADIO5

ISC - SCA

ADIO4

PWM output

Connect to 0-10V driver stage (see

3.5.2)

ADIO3

Primary Relay Control

Connect to Relay if present (see 3.5.3)

HIGH if

external relay is closed

LOW otherwise

ADIO2

Relay Overdrive

Connect to Relay if present (see 3.5.3)

HIGH for 110 ms during relay closing

ADIO1

Zero Cross Detect

Connect to zero cross detection

(see 3.5.4)

WXIDIO

DIM Button Input

Connect to DIM / LRN button if pre-

sent

(see 3.5.7.1)

WXODIO

LRN Button Input

WSDADIO2

RED LED

Connect to RED / GREEN LED

Maximum current 2 mA (see 3.5.7.2)

RSDADIO3

GREEN LED

n.c.

3, 15,

32,33, 34

Not connected

Do not connect!

Programming / Control Interface

RESET

System / Programming Reset

Active HIGH

Provide 10 kΩ pull-down parallel to

10nF capacitor on board (see

3.5.8.1)

PROG_EN

Programming Interface Enable

HIGH: Programming Mode

LOW: Functional Mode

Provide 10 kΩ pull-down parallel to

10nF capacitor on board (see

3.5.8.1)

RSDADIO3

Programming I/F

(see

3.5.8)

Dual use (also GREEN LED)

WSDADIO2

Dual use (also RED LED)

SCLKDIO1

SCSEDIO0

ADIO7

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.3 Absolute maximum ratings (non-operating)

Symbol

Parameter

Min

Max

Units

VDD Supply voltage at VDD

-0.5

3.6

IOVDD

Must be same as VDD

-0.5

3.6

GND

Ground connection

VINA

Voltage at every analog input pin

-0.5

VIND1

Voltage at RESET and every digital input pin except

WXIDIO/WXODIO

-0.5

3.6

VIND2 Voltage at WXIDIO / WXODIO input pin

(LRN / DIM button)

-0.5

2 V

3.4 Maximum ratings (operating)

Symbol

Parameter

Min

Max

Units

VDD

Supply voltage at VDD

3.0

3.3

IOVDD

Must be same as VDD

3.0

3.3

GND

Ground connection

VINA

Voltage at every analog input pin

2.0

VIND1

Voltage at RESET, and every digital input pin except

WXIDIO / WXODIO

3.3

VIND2

Voltage at WXIDIO / WXODIO input pin

(LRN / DIM button)

2.0

VDDR

Max. ripple at VDD

mVpp

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5 System design

In order to ensure reliable operation it is recommended to follow the external circuitry rec-

ommendations given in this chapter.

The high level system design is shown below.

3.5.1 Power supply

TCM 330 can be used in two system configurations:

nDC (typically 12V) supplied system

The supply voltage is typically provided by an auxiliary power output of the LED driver.

Internal regulation for TCM 330 supply voltage (3.0V … 3.3V) and potentially the 0-10V

driver (typically 12V, depending on input voltage and output driver design) is required.

nAC (line power) supplied system

Line power is used as supply voltage.

Use of transformer, rectifier, Driver regulator and TCM 330 regulator is required.

Line power supply to the LED driver can be controlled by a relay in order to save power

when the LED driver is in OFF state.

TCM330 requires a single supply voltage between 3.0V and 3.3V. This supply voltage is

used both to supply the internal core functions and the IO cells. The ripple should be under

10mVpp for optimal RF performance.

Care should be taken to avoid emitted and conducted emissions and attention must be paid

to the power supply and a correct layout and shielding to achieve best RF performance.

Refer to app note Power Supply Layout [AN101] for recommendations.

In noisy environments it is recommended to place a 22 µF ceramic capacitor between VDD

and GND close to the module (material: X5R, X7R, min 6.3 V to avoid derating effects).

In addition, an HF SMD EMI Suppression Ferrite Bead such as the Würth WE-CBF HF SMD

EMI Suppression Ferrite Bead (Würth order number 742863160) can be inserted into the

power supply line.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.2 0–10V output driver

TCM 330 provides a PWM output with a frequency of 80 kHz.

The PWM output is configured to be active high, i.e. a duty cycle of 100% will result in the

output being permanently set to high.

Conversion of the PWM output signal to a 0-10V driver signal is typically done by using a

low pass filter followed by a non-inverting amplifier.

The gain of the amplifier must be chosen according to the IO voltage of TCM 330 such that

100 % duty cycle at the TCM 330 PWM output will result in 10V output voltage at the driv-

er.

The output of the 0-10V driver should be properly ESD protected if it is exposed to user

contact.

The illustration below shows an example of such 0-10V output driver.

Both a minimum and a maximum output voltage level can be configured in TCM 330 by

means of setting a minimum and maximum duty cycle accordingly.

This feature prevents flickering at very low output voltage levels and can conserve energy

in systems where the maximum available LED brightness is not required.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.3 Relay output

TCM 330 provides the option to control a relay in order to cut the supply voltage to external

components if the LED controller output is set to OFF.

The typical application for this functionality is to control the power voltage supply of the

LED driver connected to the output of the LED controller.

TCM 330 provides two outputs for relay control:

nPrimary Relay Control

This output signal is set to active (high) if the output of TCM 330 is ON (output level >

0V); otherwise it is inactive (low).

nRelay Overdrive

This output signal is set to active (high) for a period of 110 ms during the transition from

relay OFF to ON state. Use of this signal in a relay driver is optional.

The use of both Primary Relay Control and Relay Overdrive signals enables power efficient

relay driver designs.

In such designs high current is provided during the mechanical transition from relay OFF to

ON state based on the Relay Overdrive signal.

Once the relay has reached ON state, a lower current for maintaining ON state is provided

based on the Primary Relay Control signal.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.4 Zero cross detection

TCM 330 provides the option to synchronize relay switching with the zero crossing of the

sinusoidal input line voltage in order to minimize electrical stress on the relay contacts.

TCM 330 relies on the application circuit for providing a digital input signal (falling edge)

which identifies the moment of zero crossing.

TCM 330 then measures the period between consecutive zero crossings in order to deter-

mine the AC line frequency (60 Hz or 50 Hz) and calculates the timing of subsequent zero

crossings based on that.

TCM 330 allows specifying timing offsets both for relay close and relay open actions to ac-

count for the timing difference between relay control signal change and relay contact state

change:

nRelay Switch ON Time

This parameter specifies the timing offset for the case of the relay closing (when contact

is made). It defines how much time in advance of the zero crossing the relay driver out-

put must be set to active.

The default value is 4.0 ms, it can be adjusted in 50us steps.

nRelay Switch OFF Time

This parameter specifies the timing offset for the case of the relay opening (when con-

tact is lost). It defines how much time in advance of the zero crossing the relay driver

output must be set to inactive.

The default value is 1.5 ms, it can be adjusted in 50us steps.

This feature is especially important for the case of relay close (make contact) where the

relay contacts have to mechanically travel a certain distance between their open state and

the point where contact is made.

The operating time required for this mechanical travel is typically several milliseconds and

must therefore be taken into consideration. The release time (from relay input going to

inactive until contact is opened) is typically less but should be considered as well.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.5 EEPROM

TCM330 relies on an external EEPROM for storage of frequently changing parameters such

as configuration and status information as well as link tables.

The recommended EEPROM is Microchip 24AA08.

An I2C interface to the EEPROM is implemented in TCM 330 providing SCL and SDA inter-

face signals. External 1k pull up resistors to VDD (positive supply voltage) are required for

correct operation.

The illustration below shows the recommended connection between TCM 330 and the ex-

ternal EEPROM.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.6 Antenna

3.5.6.1 Overview

Several antenna types have been investigated by EnOcean. Please refer to our application

notes AN102, and AN105 which give an overview on our recommendations.

TCM330 (868.3 MHz) has been approved with whip antenna. Modules based on TCM 330

that are used in Europe do not need additional radio approval if the external antenna fulfils

the following requirements:

Frequency band 868.300 MHz ISM Antenna must be suited for this band

Antenna type Passive Mandatory for radio approval

Impedance ~50 Ohm Mandatory for radio approval

Maximum gain ≤ 0 dBd Mandatory for radio approval

In addition it is important to fulfill the following requirements in order to achieve compati-

bility with other EnOcean products and to ensure excellent EMI robustness:

VSWR

≤ 3:1

Important for compatibility with EnOcean protocol

Return Loss

> 6 dB

Important for compatibility with EnOcean protocol

Bandwidth

≤ 20 MHz

Important if 10 V/m EMI robustness required for device

TCM330U (902.875 MHz) is designed for use with the following antenna types:

nEnOcean-defined whip antenna

nEnOcean-defined helix antenna

nChip antenna Mitsubishi Material, Type AM11DG-ST01

TCM 330U is FCC / IC pre-approved (limited modular approval) for these antennas.

Please contact EnOcean for details.

Note that a full FCC / IC approval is needed if TCM 330U modules are used in US /

Canada with antennas other than these specified antennas.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.6.2 Whip antenna

The whip antenna parameters are shown below.

n902.875 MHz

Antenna: 64 mm wire, connect to RF_WHIP

Minimum GND plane: 50 mm x 50 mm

Minimum distance space: 10 mm

n868.3 MHz

Antenna: 86 mm wire, connect to RF_WHIP

Minimum GND plane: 38 mm x 18 mm

Minimum distance space: 10 mm

3.5.6.3 Helix antenna

n902.875 MHz

Design according to drawing below.

Minimum GND plane: 35 mm x 30 mm

Minimum distance space: 10 mm

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.6.4 Chip antenna (Mitsubishi Material, Type AM11DG-ST01)

n902.875 MHz

Please refer to PCB drawing below for design instructions.

The following conditions apply for use of the EnOcean FCC / IC limited modular approval:

nDimensions may not be shortened

nMatching circuit is part of the limited modular approval and may not be changed

nMinimum top and bottom side ground plane required as shown below

nConnect ground planes using multiple via as shown

nConnect matching circuit to RF_50

nUse High Q wire wound inductors, e.g. 0603 Murata LQW18A series.

nUse the following matching circuit values: L1 = 3.9 nH; L2 = 33 nH, L3 = 12 nH.

Please contact EnOcean if you intend to use this design with EnOcean FCC / IC limited

modular approval.

For additional information or chip antenna quotes, please refer to Mitsubishi Materials web-

site at www.mmea.com or email to electroniccomponents@mmus.com.

USER MANUAL V1.1

TCM 330 / TCM 330U

Wireless LED Controller Module

3.5.7 Local interface

TCM 330 provides the option to use a local interface for simple configuration and status

display tasks. This interface consists of two pushbuttons (called LRN and DIM) and two LED

(red and green, either as two separate LED or as an integrated bi-color solution).

3.5.7.1 Pushbutton interface

The two pushbuttons have to be connected as follows:

nLRN button to WXODIO input of TCM 330 (pin 30)

nDIM button to WXIDIO input of TCM 330 (pin 29)

Both inputs are active low. Proper debouncing circuitry should be included.

3.5.7.2 LED interface

The two LED’s have to be connected as follows:

nGreen LED to RSDADIO3 output of TCM 330 (pin 22)

nRed LED to WSDADIO2 output of TCM 330 (pin 21)

Both outputs are active high. Output current should be limited via 560 Ohm series resis-

tors.

One possible implementation of the pushbutton and LED interface is shown below.

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