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ABB i-bus KNX Product Manual

Energy actuator se/s 3.16.1
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  • Page 1 ® ABB i-bus Energy Actuator SE/S 3.16.1 Product Manual...

  • Page 3: Table Of Contents

     ABB i-bus Contents Page Contents General ....................3 Using the product manual ......................3 1.1.1 Structure of the product manual ....................4 1.1.2 Note ..............................4 Product and functional overview ....................5 Device technology ................7 Energy Actuator SE/S 3.16.1, MDRC ...................7 2.1.1 Technical data ..........................7...
  • Page 4  ABB i-bus Contents Communication objects......................92 3.3.1 Short overview of the communication objects ................93 3.3.2 Communication objects General ....................96 3.3.3 Communication objects Load control master ................100 3.3.4 Communication objects Meter total ..................104 3.3.5 Communication objects Intermediate meter total ..............104 3.3.6...

  • Page 5: General

    In order to increase the energy efficiency of buildings and at the same time integrate the consumers in the load compensation, it is necessary to switch electrical devices in buildings based on ® external signals such as time, consumption thresholds or similar. The ABB i-bus KNX provides the opti- mum prerequisites for intelligent buildings.

  • Page 6: Structure Of The Product Manual

     ABB i-bus General 1.1.1 Structure of the product manual All parameters are described in chapter 3. Note The Energy Actuator has 3 outputs. However, as the functions for all outputs are identical, only the functions of output A will be described.

  • Page 7: Product And Functional Overview

    4 space units in Pro M design for installation in a distribution board. The connection to the ABB i-bus KNX is established using the front side bus connection terminal. The assignment of the physical addresses as well as the parameterization is carried out with Engineering Tool Software ETS from version ETS3.0f.

  • Page 9: Device Technology

     ABB i-bus Device technology Device technology Energy Actuator SE/S 3.16.1, MDRC The Energy Actuator is a modular The connection of the outputs is imple- installation device in Pro M design for mented using universal head screw installation in the distribution board. The terminals.
  • Page 10  ABB i-bus Device technology Accuracy Active consumption/active power (250…500 mA) ± 6 % measuring value Active consumption/active power (500 mA… 5 A) ± 3 % measuring value Active consumption/active power (5…20 A) ± 2 % measuring value Current (0.025…20 A) ±...

  • Page 11: Lamp Load Output

    The ETS and the current version of the device application program are required for programming. The current application program can be found with the respective software information for download on the internet at www.abb.com/knx. After import in the ETS it is available in the ETS under ABB/Output/Energy actuator.
  • Page 12  ABB i-bus Device technology Note Current values less than 25 mA are indicated as a 0 mA value on the KNX (starting current). For small load currents that are just above the minimum detection threshold of 25 mA, it is possible that a value of 0 mA is displayed due to the inaccuracies, even though a current is flowing.

  • Page 13: Circuit Diagram

     ABB i-bus Device technology 2.1.3 Circuit diagram 1 Label carrier 2 Button Programming 3 LED Programming (red) 4 Bus terminal connection 5 Switch position display and ON/OFF actuation 6 Load circuits (A…C) each with 2 screw terminals, neutral conductor (N)

  • Page 14: Connection Example

     ABB i-bus Device technology 2.1.3.1 Connection example If the outputs of the Energy Actuator are to be individually protected against residual currents, the RCD (earth-leakage circuit breaker) must be connected as follows. 12 2CDC 505 084 D0203 | SE/S 3.16.1...

  • Page 15: Dimension Drawing

     ABB i-bus Device technology 2.1.4 Dimension drawing SE/S 3.16.1 | 2CDC 505 084 D0203 13...

  • Page 16: Ballast Calculation

     ABB i-bus Device technology Ballast calculation The electronic ballast is a device for operating gas discharge lamps, e.g. fluorescent lamps. During normal operation, it converts the mains voltage to an optimum operating voltage for the gas discharge lamps. Fur- thermore, the electronic ballast enables the gas discharge lamps to ignite (start) via capacitor circuitry.

  • Page 17: Ac1, Ac3, Ax, C-Load Specifications

     ABB i-bus Device technology AC1, AC3, AX, C-Load specifications In intelligent installation systems, different switching capacity and performance specifications, that are de- pendent on the special applications, have become established in industrial and building installations. The- se performance specifications are rooted in the respective national and international standards. The tests are defined so that typical applications, e.g.

  • Page 18: Measurement Methods

     ABB i-bus Device technology Measurement methods The Energy Actuator has its own evaluation electronics for detection and measurement of the various measured variables for each output, which can be programmed separately. Current and voltage are measured directly; all other variables (meter values, active power, apparent pow- er, power factor, crest factor, frequency) are derived from these values.

  • Page 19: Assembly And Installation

    Device technology Assembly and installation The ABB i-bus Energy Actuator SE/S 3.16.1 is a modular installation device for installation in the distribu- tion board on 35 mm mounting rails to EN 60 715. The mounting position can be selected as required.
  • Page 20  ABB i-bus Device technology Supplied state The device is supplied with the physical address 15.15.255. The application program is pre-installed. It is therefore only necessary to load group addresses and parameters during commissioning. However, the complete application program can be reloaded if required. The entire application program is loaded after a change of the application program, after a discontinued download or after discharge of the device.

  • Page 21: Commissioning

    Commissioning Commissioning The ABB i-bus KNX Energy Actuator SE/S 3.16.1 is a switch actuator, which records the energy con- sumers of the connected electrical loads. Its three outputs feature the same functions. It is thus possible, depending on the application, to freely define every output and to parameterize it accordingly.
  • Page 22  ABB i-bus Commissioning Parameterization options Meter reading total (Wh) SE/S3.16.1  Meter total  Intermediate meter total  Trigger 1  – via communication object  – via time  Trigger 2  – via communication object  – via time ...
  • Page 23  ABB i-bus Commissioning Parameterization options Functions SE/S 3.16.1 Device is load control master  Number of shedding stages  Load limit can be changed  Reaction after download and ETS reset  Source for power values 1…4  Enable of additional power values [0…6] ...
  • Page 24  ABB i-bus Commissioning Parameterization options per output SE/S 3.16.1 Function Safety  Safety priority 1  Forced operation  Safety priority 2  Safety priority 3 Function Metering (Wh)  Send meter reading  Send intermediate meter reading ...

  • Page 25: Conversion

    Note When the term “channels” is used in the ETS, inputs and/or outputs are meant. In order to ensure that ® the ETS language generally applies for as many ABB i-bus devices as possible, the word „channels“ is used here.

  • Page 26: Procedure

     ABB i-bus Commissioning 3.1.1.1 Procedure • Insert the required device into the project. • Import the current application program into the ETS. • Perform parameterization and program the device. • After you have programmed a device, you can transfer the settings to a second device.

  • Page 27: Copying And Exchanging Parameter Settings

    Note When the term “channels” is used in the ETS, inputs and/or outputs are meant. In order to ensure that ® the ETS language generally applies for as many ABB i-bus devices as possible, the word channels is used here.

  • Page 28: Procedure

     ABB i-bus Commissioning 3.1.2.1 Procedure • Insert the required device into the project. • Import the current application program into the ETS. • Click with the right mouse button on the product, whose outputs you wish to copy or exchange, and select the context menu Plug-in >...

  • Page 29: Dialog Copy/Exchange Channels

     ABB i-bus Commissioning 3.1.2.2 Dialog Copy/exchange channels At the top left, you will see the source channel selection window for marking the source channel. Beside it is located the selection window for the target channel or channels for marking the target channel or chan- nels.

  • Page 30: Parameters

    The parameterization of the Energy Actuator is implemented using the Engineering Tool Software ETS from version ETS3.0f or higher. The application program is available in the ETS3 at ABB/Output/Energy Actuator. The following chapter describes the parameters of the device using the parameter window. The parameter window features a dynamic structure so that further parameters may be enabled depending on the param- eterization and the function.

  • Page 31: Parameter Window General

     ABB i-bus Commissioning 3.2.1 Parameter window General Higher level parameters can be set in the parameter window General. Sending and switching delay after bus voltage recovery in s [2…255] Options: 2…255 Telegrams are only received during the send and switching delay. The telegrams are not processed how- ever, and the outputs remain unchanged.
  • Page 32  ABB i-bus Commissioning Send communication object “In operation” Options: send value 0 cyclically send value 1 cyclically The in operation communication object indicates the presence of the device on the bus. This cyclic tele- gram can be monitored by an external device. If a telegram is not received, the device may be defective or the bus cable to the transmitting device may be interrupted.
  • Page 33  ABB i-bus Commissioning The following status messages are sent depending on the parameterization: • Status switch output A…C (provided that the communication object is enabled and parameterized as on request) • Status contact monitoring (if parameterized as on request)) •...
  • Page 34  ABB i-bus Commissioning Enable communication object "Request power values" 1 bit Options: • yes: A 1 bit communication object Request power values is enabled. Via this communication object, all power values can be requested, provided that they have been parame- terized with the option on request.

  • Page 35: Parameter Window Metering (Wh)

     ABB i-bus Commissioning 3.2.2 Parameter window Metering (Wh) In parameter window Metering (Wh), the higher-level settings that apply for all meters are undertaken, and the Meter reading total can be enabled here with the respective parameter window. Enable communication object "Request meter readings"...
  • Page 36  ABB i-bus Commissioning Transmission delay meter readings in s [0…65,535] Options: 0…65,535 The send delay time is used to minimize the bus load should the meter readings of several Energy Actua- tors be requested simultaneously. When meter readings are requested, they will only be sent after the de- lay time has timed out.

  • Page 37: Parameter Window Function

     ABB i-bus Commissioning 3.2.3 Parameter window Function In the parameter window Function, the functions and the corresponding communication objects for the en- tire device are enabled. Monitor "Active power total" Options: • yes: The parameter window Active power total and the communication object Active power (Active power total) are enabled.
  • Page 38  ABB i-bus Commissioning Enable safety objects Options: • yes: The communication objects device safety are enabled. Three further parameters appear: Function safety priority 1 Options: inactive enabled by object value 0 enabled by object value 1 With the Function safety priority 1…3, a customized trigger condition (safety disconnection) can be defined for each priority.
  • Page 39  ABB i-bus Commissioning Function safety priority 2 Function safety priority 3 Note The functions and setting options of the parameter Function safety priority 2 and Function safety priority 3 do not differentiate from those of parameter Function safety priority 1. Please refer to the description of Function safety priority 1 for the description.

  • Page 40: Parameter Window Meter Reading Total (Wh)

     ABB i-bus Commissioning 3.2.3.1 Parameter window Meter reading total (Wh) In parameter window Meter reading total, the settings for the Meter total and the Intermediate meter total are undertaken. Send "Meter reading total" Send "Intermediate meter reading total" Options:...
  • Page 41  ABB i-bus Commissioning Hour [0…23] Options: 0…23 Minute [0…59] Options: 0…59 Weekday Options: Monday…Sunday every day The intermediate meter (meter reading) starts if the parameterized time is received on the commu- nication object Receive time (General). Note The time is only required once per device for all meters.
  • Page 42  ABB i-bus Commissioning Hour [0…23] Options: 0…23 Minute [0…59] Options: 0…59 Weekday Options: Monday…Sunday every day The intermediate meter is sent if the parameterized time is received on the communication object Receive time (General). It is possible to parameterize whether the intermediate meter stops or does not stop.
  • Page 43  ABB i-bus Commissioning Stop "Intermediate meter reading total" on trigger 2 Options: Note This parameter is not available should Limit be selected beforehand. • no: The intermediate meter sends its meter reading at trigger 2 and continues to count further (without reset).

  • Page 44: Parameter Window Active Power Total

     ABB i-bus Commissioning 3.2.3.2 Parameter window Active power total In parameter window Active power total, the parameters and communication objects for recording and monitoring of the Active power total (sum of outputs A, B and C) are enabled. The parameter window is enabled when in parameter window Function, page 35, the parameter Monitor "Active power total"...
  • Page 45  ABB i-bus Commissioning Enable thresholds Options: • yes: The parameters and communication objects for threshold 1 for monitoring the Active power total are enabled. The following parameters appear: Overwrite thresholds with download or ETS reset Options: • yes: The threshold values can be modified via the bus. With this setting, after a download or ETS reset, the values changed on the bus are again overwritten with the parameterized values.

  • Page 46: Parameter Window Frequency

     ABB i-bus Commissioning 3.2.3.3 Parameter window Frequency In parameter window Frequency, parameter and communication objects for the detection and monitoring of the frequency are enabled. The parameter window is enabled when in parameter window Function, page 35, the parameter Monitor “Frequency” has been selected with the option yes.
  • Page 47  ABB i-bus Commissioning Enable thresholds Options: • yes: The parameters and communication objects for Threshold value 1 for monitoring the Frequency are enabled. The following parameters appear: Overwrite thresholds with download or ETS reset Options: • yes: The threshold values can be modified via the bus. With this setting, after a download or ETS reset, the values changed on the bus are again overwritten with the parameterized values.

  • Page 48: Parameter Window Load Control Master

     ABB i-bus Commissioning 3.2.3.4 Parameter window Load control master In the parameter window Load control master, the settings for the load control are undertaken, provided that the Energy Actuator is used as a master for load control. The parameter window is enabled when in parameter window Function, page 35, the parameter Device is load control master has been selected with the option yes.
  • Page 49  ABB i-bus Commissioning Load limit 1 in W [0…200,000] Load limit 2 in W [0…200,000] Load limit 3 in W [0…200,000] Load limit 4 in W [0…200,000] Options 0…5000…200,000 Active load limit after download or ETS reset Options: Load limit 1…4 The load limit parameterized here is active after a download or ETS reset.
  • Page 50  ABB i-bus Commissioning Source for power value 1 Options: none active power Output A external via object • none: Power value 1 is not used, the communication object Receive power value 1 is not enabled. • active power Output A: The active power of output A is used as power value 1. The communication object Receive power value 1 is not enabled;...
  • Page 51  ABB i-bus Commissioning Monitor power values cyclically Options: • yes: The 4 byte communication object Status load control is enabled. Using this communication ob- ject, you monitor whether all enabled power values are received via the bus. The following parameter appears: Control period in s [20…65,535]...
  • Page 52  ABB i-bus Commissioning Object "Deactivate load control" (master) at recovery of bus voltage Options: unchanged 0 = load control activated 1 = load control deactivated This parameter defines how the function Load control master should behave after bus voltage recovery.

  • Page 53: Parameter Window A: General

     ABB i-bus Commissioning 3.2.4 Parameter window A: General In parameter window A: General, all the general settings are undertaken for output A. Note The Energy Actuator has 3 outputs. However, as the functions for all outputs are identical, only the functions of output A will be described.
  • Page 54 This is the recommended standard setting. ® Just as with the existing range of ABB i-bus KNX Switching Actuators, a switching impulse is only trig- gered to switch the Energy Actuator when the calculated relay position diverges from the received switch- ing telegram.
  • Page 55  ABB i-bus Commissioning Send status "Contact monitoring" Options: no, update only after a change on request after a change or on request The sending behaviour of the communication object Contact monitoring can be parameterized by this pa- rameter. A contact fault is indicated via the communication object Contact monitoring. An error (value 1) is displayed as soon as a current of about 30 mA (observe the tolerances) is detected with an open contact.
  • Page 56  ABB i-bus Commissioning Value object "Switch" on bus voltage recovery and ETS reset Options: not write write with 0 write with 1 With this parameter, the output can be influenced after bus value recovery. • not write: After bus voltage recovery, the valid value active before the bus voltage failure is restored.

  • Page 57: Parameter Window A: Function

     ABB i-bus Commissioning 3.2.5 Parameter window A: Function In this parameter window, the behaviour of the output is determined and different functions can be ena- bled, where further parameter windows become available. Enable function time: Delay, staircase lighting, flashing Options: •...
  • Page 58  ABB i-bus Commissioning With the selection yes a new parameter appears: Value "Disable function time" after bus voltage recovery and ETS reset Options: 1 = disable function time 0 = enable function time • 1 = disable function time: The function Time is disabled by a telegram with the value 1.
  • Page 59  ABB i-bus Commissioning Enable function "logic" Options: • no: The parameter window A: Logic for output A is not enabled. • yes: The parameter window A: Logic for output A is enabled. Enable function priority and safety operation Options: •...

  • Page 60: Parameter Window A: Time

     ABB i-bus Commissioning 3.2.5.1 Parameter window A: Time In this parameter window, all settings for the function Time are undertaken: Switching ON and OFF delay, Staircase lighting and Flashing. Time function Options: Staircase lighting Switching ON and OFF delay Flashing This parameter defines the type of function Time for each output.
  • Page 61  ABB i-bus Commissioning The following parameter appears with the selection Staircase lighting: Staircase lighting duration in s [0…65,535] Options: 0…300…65,535 The staircase lighting time defines how long the contact is closed and how long the light remains on after an ON telegram. The input is made in seconds. The staircase lighting time may extend de- pending on the value set in the parameter Warning before end of staircase lighting.
  • Page 62  ABB i-bus Commissioning Warning before end of staircase lighting Options: via object via quick switching OFF-ON via object and switching OFF-ON Before the staircase lighting time times-out, the user can be informed of the imminent switch off of the lighting by a warning. If the warning time is not equal to 0, the staircase lighting time is extended by the warning time.
  • Page 63  ABB i-bus Commissioning How does the staircase lighting behave with bus voltage failure? The behaviour at bus voltage failure is determined by the parameter Reaction on bus voltage failure in the parameter window General, page 51. How does the staircase light behave with bus voltage recovery?
  • Page 64  ABB i-bus Commissioning The following parameters appear at Switching ON and OFF delay: The output can be switched on or off with a delay via this function. Explanations for the on and off delay can be found at Switching ON and OFF delay, page 131.
  • Page 65  ABB i-bus Commissioning The following parameters appear with the selection Flashing: The output starts to flash as soon as the parameterized value is received in the communication object Switch. The flashing period can be adjusted via the parameterized time duration for ON or OFF. The out- put is switched on at the start of the flashing period.
  • Page 66  ABB i-bus Commissioning Flash if object "Switch" is Options: 1 or 0 Here you set the value of the communication object Switch, at which the output flashes. Flashing is not retriggerable. • 1: Flashing starts when a telegram with the value 1 is received on the communication object Switch. A telegram with the value 0 ends flashing.
  • Page 67  ABB i-bus Commissioning Number of flashes: [1…100] Options: 1…5…100 This parameter defines the maximum number of pulses. This is useful to avoid unnecessary wear of the contacts caused by flashing. Contact position after flashing Options: calculate present contact position This parameter defines the state that the parameter should assume after flashing.

  • Page 68: Parameter Window A: Scenes 1

     ABB i-bus Commissioning 3.2.5.2 Parameter window A: Scenes 1…6 In this parameter window, all settings for Scenes 1…6 are undertaken. With the parameter Overwrite scene assignment with download or ETS reset in parameter window Function, page 55, it is possible to not overwrite the scene values set via the bus during a download and to protect them.

  • Page 69: Parameter Window A: Scenes 7

     ABB i-bus Commissioning Standard value Options: By storing a scene, the user has the opportunity to change the programmed value stored in the ETS. After a bus voltage failure, the value saved via the KNX is retained. Note When a scene is recalled: •...

  • Page 70: Parameter Window A: Logic

     ABB i-bus Commissioning 3.2.5.5 Parameter window A: Logic In this parameter window, all settings for the function Logic are undertaken. The function Logic provides up to two logic objects for each output, which can be logically linked with the Switch communication object.
  • Page 71  ABB i-bus Commissioning Object "Logical connection 1" after bus voltage recovery or ETS reset Options: This parameter defines the value allocated to the communication object Logical connection 1 with bus voltage recovery and ETS reset. A further parameter appears if GATE is selected with the parameter Function of object "Logical connection 1":...

  • Page 72: Parameter Window A: Safety

     ABB i-bus Commissioning 3.2.5.6 Parameter window A: Safety In this parameter window, all settings for the function Safety are undertaken. The forced operation (a 1 bit or 2 bit communication object per output) or safety priority (three independent 1 bit communication objects per Energy Actuator) sets the output in a defined state, which can no longer be changed, as long as forced operation or safety priority is active.
  • Page 73  ABB i-bus Commissioning Contact position if safety priority 1 Options: unchanged inactive This parameter determines the switch position of the output if the safety condition Safety priority 1 (setting undertaken in parameter window Function, page 35) has been fulfilled.
  • Page 74  ABB i-bus Commissioning Object "Forced operation" on bus voltage recovery and ETS reset This parameter is only visible if forced operation is activated. Depending on whether the Forced operation communication object is a 1 bit or 2 bit communication...

  • Page 75: Parameter Window A: Metering (Wh)

     ABB i-bus Commissioning 3.2.5.7 Parameter window A: Metering (Wh) In parameter window A: Metering (Wh), the settings for the main meter and the intermediate meter or out- put A are undertaken. Send "Meter reading" Send "Intermediate meter reading" Options:...
  • Page 76  ABB i-bus Commissioning Hour [0…23] Options: 0…23 Minute [0…59] Options: 0…59 Weekday Options: Monday…Sunday every day The intermediate meter reading is sent if the parameterized time is received on the communication object Receive time (General). Note The time is only required once per device for all meters.
  • Page 77  ABB i-bus Commissioning Hour [0…23] Options: 0…23 Minute [0…59] Options: 0…59 Weekday Options: Monday…Sunday every day The meter reading is sent if the parameterized time is received on the communication object Re- ceive time (general). It is possible to parameterize whether the intermediate meter stops or does not stop.
  • Page 78  ABB i-bus Commissioning Stop "Intermediate meter reading" on trigger 2 Options: Note This parameter is not available should Limit be selected beforehand. Instead of the parameter Reaction to stop, the parameter Contact position when limit is reached appears with the same options as in parameter Reaction to stop.

  • Page 79: Parameter Window A: Instrument And Power Values

     ABB i-bus Commissioning 3.2.5.8 Parameter window A: Instrument and power values In this parameter window, further parameter values for monitoring of the instrument and power values and the respective communication objects are enabled. Monitor active power Options: • yes: The parameter window A: Monitor active power is enabled.
  • Page 80  ABB i-bus Commissioning Send "Apparent power" when +/- VA [1…4,600] Options: 1…5…4,600 This parameter determines which changes of the value of the communication object Appar- ent power are sent. Send "Apparent power" on request Options: • yes: The value of the communication object Apparent power is sent when a telegram is re- ceived on the communication object Request power values.
  • Page 81  ABB i-bus Commissioning Send "Power factor" cyclically Options: • yes: The value of the communication object Power factor is sent cyclically. The setting of the cycle time is undertaken in parameter window General, page 29 (parameter Cycle time for in- strument values).

  • Page 82: Parameter Window A: Monitor Active Power

     ABB i-bus Commissioning 3.2.5.8.1 Parameter window A: Monitor active power In parameter window A: Monitor active power, the parameters and the communication objects for the de- tection and monitoring of the active power of output A are enabled. Send "Active power" after a change Options: •...
  • Page 83  ABB i-bus Commissioning Enable thresholds Options: • yes: The parameters and communication objects for threshold 1 for monitoring the Active power of output A are enabled. The following parameters appear: Overwrite thresholds with download or ETS reset Options: •...
  • Page 84  ABB i-bus Commissioning Threshold 1 upper limit in W [0…4,600] Options: 0…100…4,600 This is the upper hysteresis limit of threshold value 1. If the upper threshold is exceeded, there is a reaction. Threshold 1 warning Options: do not send...

  • Page 85: Parameter Window A: Monitor Current

     ABB i-bus Commissioning 3.2.5.8.2 Parameter window A: Monitor current In parameter window A: Monitor current, the parameters and the communication objects for the detection and monitoring of the current value of output A are enabled. Send "Current" after a change Options: •...
  • Page 86  ABB i-bus Commissioning Enable thresholds Options: • yes: The parameters and communication objects for threshold 1 for monitoring the Current value of output A are enabled. The following parameters appear: Overwrite thresholds with download or ETS reset Options: •...
  • Page 87  ABB i-bus Commissioning Threshold 1 upper limit in 100 mA x value [0…200] Options: 0…3…200 This is the upper hysteresis limit of threshold value 1. If the upper threshold is exceeded, there is a reaction. Threshold 1 warning Options:...

  • Page 88: Parameter Window A: Monitor Voltage

     ABB i-bus Commissioning 3.2.5.8.3 Parameter window A: Monitor voltage In parameter window A: Monitor voltage, the parameters and the communication objects for the detection and monitoring of the voltage of output A are enabled. Send "Voltage" after a change Options: •...
  • Page 89  ABB i-bus Commissioning Enable thresholds Options: • yes: The parameters and communication objects for threshold 1 for monitoring the Voltage of output A are enabled. The following parameters appear: Overwrite thresholds with download or ETS reset Options: • yes: The threshold values can be modified via the bus. With this setting, after a download or ETS reset, the values changed on the bus are again overwritten with the parameterized values.
  • Page 90  ABB i-bus Commissioning Threshold 1 upper limit in V [95…265] Options: 95…100…265 This is the upper hysteresis limit of threshold value 1. If the upper threshold is exceeded, there is a reaction. Threshold 1 warning Options: do not send...
  • Page 91  ABB i-bus Commissioning Contact position when exceeding upper limit Options: no reaction switch OFF until next switch operation switch ON until next switch operation switch OFF until value is falling below threshold again switch ON until value is falling below limit again •...

  • Page 92: Parameter Window A: Load Control Slave

     ABB i-bus Commissioning 3.2.5.9 Parameter window A: Load control slave In parameter window Load control slave, the behaviour of the output is parameterized, provided that the output is used as a slave for load control. The master can be another Energy Actuator, the device itself or e.g.
  • Page 93  ABB i-bus Commissioning Object "Deactivate load control" (slave) at recovery of bus voltage Options: unchanged 0 = load control activated 1 = load control deactivated This parameter defines how the function Load control slave should behave after bus voltage recovery.

  • Page 94: Communication Objects

     ABB i-bus Commissioning Communication objects In this chapter, the communication objects of the Energy Actuator SE/S 3.16.1 are described. The descrip- tion is divided into blocks, which relate to the name of the communication object. General - Communication objects, valid for the entire Energy Actuator Output A…C...

  • Page 95: Short Overview Of The Communication Objects

     ABB i-bus Commissioning 3.3.1 Short overview of the communication objects Flags Data Point Function Name Length Type (DPT) In operation System DPT 1.002 1 bit Safety priority 1 General DPT 1.005 1 bit Safety priority 2 General DPT 1.005...
  • Page 96  ABB i-bus Commissioning Flags Data Point Function Name Length Type (DPT) Meter reading Intermediate meter total DPT 13.010 4 byte Status Intermediate meter total non DPT 1 byte Receive trigger 1 Intermediate meter total DPT 1.017 1 bit Trigger 1 change time Intermediate meter total DPT 10.001...
  • Page 97  ABB i-bus Commissioning Flags Data Point Function Name Length Type (DPT) Meter reading A: Intermediate meter DPT 13.010 4 byte Status A: Intermediate meter non DPT 1 byte Receive trigger 1 A: Intermediate meter DPT 1.017 1 bit Trigger 1 change time A: Intermediate meter DPT 10.001...

  • Page 98: Communication Objects General

    "In operation" is selected with the option send value 0 cyclically or send value 1 cyclically. ® In order to regularly monitor the presence of the Energy Actuator on the ABB i-bus KNX, an in operation monitoring telegram can be sent cyclically on the bus. As long as the communication object is activated, it sends an in operation telegram.
  • Page 99  ABB i-bus Commissioning Function Object name Data type Flags Request meter readings General 1 bit C, W DPT 1.017 This communication object is enabled if in parameter window Metering (Wh), page 33, the parameter Enable communication object "Request status values" 1 bit has been selected with option yes.
  • Page 100  ABB i-bus Commissioning Function Object name Data type Flags Measurement circuit active Diagnostics 1 bit C, R, T DPT 1.011 This communication object is always enabled. It indicates that the measurement electronics of the Energy Actuator are “working”. The value of the communication object is sent on a change and when a telegram is received on the communication object Request status values.
  • Page 101  ABB i-bus Commissioning Function Object name Data type Flags Enable reset meters Meter reading 1 bit C, R, W DPT 1.003 This communication object is enabled if in parameter window Metering (Wh), page 33, the parameter All meters resettable via object have been selected with the option yes.

  • Page 102: Communication Objects Load Control Master

     ABB i-bus Commissioning 3.3.3 Communication objects Load control master Function Object name Data type Flags Deactivate load control Load control master 1 bit C, R, W DPT 1.003 This communication object is enabled when in parameter window Function, page 35, the parameter Device is load control master has been selected with the option yes.
  • Page 103  ABB i-bus Commissioning Function Object name Data type Flags Status load control Load control master 4 byte C, R, T DPT 27.001 The communication object is enabled when in parameter window Load control master, page 46, the parameter Monitor power values cyclically has been selected with the option yes.
  • Page 104  ABB i-bus Commissioning Function Object name Data type Flags 17…26 Receive power value 1…10 Load control master 4 byte C, R, T, U DPT 14.056 These communication objects are enabled, provided that in parameter window Function, page 35, the parameter Device is...
  • Page 105  ABB i-bus Commissioning Function Object name Data type Flags Choose load limit Load control master 1 byte C, W DPT 5.010 This communication object is enabled when in parameter window Load control master, page 46, the parameter Load limit can be changed has been selected with the option yes, 4 values selectable.

  • Page 106: Communication Objects Meter Total

     ABB i-bus Commissioning 3.3.4 Communication objects Meter total Function Object name Data type Flags Meter reading Meter total 4 byte C, R, T DPT 13.010 This communication object is enabled if in parameter window Metering (Wh), page 33, the parameter Enable "Meter reading total"...
  • Page 107  ABB i-bus Commissioning Function Object name Data type Flags Trigger 1 change time Intermediate meter total 3 byte DPT 10.001 C, R, W, T This communication object is enabled if in parameter window Meter reading total (Wh), page 38, the parameter Trigger 1 (Start) is activated by has been selected by the option Time.

  • Page 108: Communication Objects Active Power Total

     ABB i-bus Commissioning 3.3.6 Communication objects Active power total Function Object name Data type Flags Active power Active power total 4 byte C, R, T DPT 14.056 This communication object is enabled when in parameter window Function, page 35, the parameter Monitor "Active power total"...

  • Page 109: Communication Objects Frequency

     ABB i-bus Commissioning 3.3.7 Communication objects Frequency Function Object name Data type Flags Frequency Frequency 4 byte C, R, T DPT 14.033 This communication object is enabled when in parameter window Function, page 35, the parameter Monitor "Frequency" has been selected with the option yes.

  • Page 110: Communication Objects Output A: Switch

     ABB i-bus Commissioning 3.3.8 Communication objects Output A: Switch Note As the functions are identical for all outputs, they will only be explained for output A. The descriptions of the parameterization options for Outputs A…X are described from parameter window General, page 51.
  • Page 111  ABB i-bus Commissioning Function Object name Data type Flags Permanent ON A: Time 1 bit C, W DPT 1.001 This communication object is enabled if in parameter window Function, page 55, the parameter enable function time has been selected with the option yes.
  • Page 112  ABB i-bus Commissioning Function Object name Data type Flags 8 bit scene A: Scene 1 byte C, W DPT 18.001 This communication object is enabled if in parameter window Function, page 55, the parameter Enable function scene has been selected with the option yes.

  • Page 113: Communication Objects A: Meter

     ABB i-bus Commissioning Function Object name Data type Flags Forced operation A: Forced operation 1 bit C, W DPT 1.003 This communication object is enabled if in parameter window Function, page 55, the parameter Enable function safety has been selected with the option yes and the parameter Contact position if forced operation has been selected with 1 bit object.

  • Page 114: Communication Objects A: Intermediate Meter

     ABB i-bus Commissioning 3.3.8.2 Communication objects A: Intermediate meter Function Object name Data type Flags Meter reading A: Intermediate meter 4 byte C, R, T DPT 13.010 This communication object is enabled if in parameter window Function, page 55, the parameter Enable function metering has been selected with the option yes.
  • Page 115  ABB i-bus Commissioning Function Object name Data type Flags Trigger 2 change time A: Intermediate meter 3 byte C, R, W, T DPT 10.001 This communication object is enabled if in parameter window A: Metering (Wh), page 73, the parameter Trigger 2 is activated by has been selected with the option Time.

  • Page 116: Communication Objects A: Load Control Slave

     ABB i-bus Commissioning 3.3.8.3 Communication objects A: Load control slave Function Object name Data type Flags Deactivate load control A: Load control slave 1 bit C, R, W DPT 1.003 This communication object is enabled if in parameter window Function, page 55, the parameter Enable function load control has been selected with the option yes.

  • Page 117: Communications Objects A: Instrument And Power Values

     ABB i-bus Commissioning 3.3.8.4 Communications objects A: Instrument and power values Function Object name Data type Flags Active power A: Active power 4 Byte C, R, T DPT 14.056 This communication object is enabled if in parameter window A: Instrument and power values, page 77, the parameter Monitor active power has been selected with the option yes.
  • Page 118  ABB i-bus Commissioning Function Object name Data type Flags Threshold 1 lower limit A: Current 4 Byte C, R, W, T DPT 14.019 This communication object is enabled if in parameter window A: Monitor current, page 83, the parameter Enable thresholds has been selected with the option yes.
  • Page 119  ABB i-bus Commissioning Function Object name Data type Flags Threshold 1 warning A: Voltage 1 bit C, R, T DPT 1.005 This communication object is enabled if in parameter window A: Monitor voltage, page 86, the parameter Enable thresholds has been selected with the option yes.

  • Page 121: Planning And Application

     ABB i-bus Planning and application Planning and application Functions The following functions are available and are explained in this chapter. A detailed description of the pa- rameters and communication objects can be found in chapter 3. • Meter reading •...

  • Page 122: Function Chart

     ABB i-bus Planning and application 4.1.1 Function chart 120 2CDC 505 084 D0203 | SE/S 3.16.1...

  • Page 123: Meter Reading

     ABB i-bus Planning and application 4.1.2 Meter reading For each output, there is a meter and a flexibly parameterized intermediate meter for detection of the ac- tive energy consumption of the connected loads in Wh. The three meters of outputs A, B and C are added to give the Meter total, for which an intermediate meter is also available.
  • Page 124  ABB i-bus Planning and application Configuration and function of the intermediate meters: The meter readings of the intermediate meter are derived from the respective main meter. The meter read- ing is not lost in the event of a bus voltage failure; however at bus voltage failure or ETS reset, it is possi- ble that a trigger may be “missed”.
  • Page 125  ABB i-bus Planning and application Application examples Parameterization: Trigger 1 (Start) is activated by = 1 bit communication object At Trigger 1 (Start) Reset "Intermediate meter” = yes At Trigger 1 (Start) Send "Intermediate meter” = yes Trigger 2 is activated by...
  • Page 126  ABB i-bus Planning and application Parameterization: Trigger 1 (Start) is activated by = Time (00:00) Trigger 2 is activated by = Duration (15 minutes) The intermediate meter counts continuously and sends the meter reading every 15 minutes. Syn- chronization with the timer occurs daily at 0:00.

  • Page 127: Instruments And Power Values

     ABB i-bus Planning and application 4.1.3 Instruments and power values The following values can be monitored by threshold values with the Energy Actuator: Instrument values • Current value (per output) • Voltage (per output) • Frequency Power values •...
  • Page 128  ABB i-bus Planning and application The Delay for switching can be set separately for every monitored value (active power, current value, volt- age), i.e. the parameterized switching reaction of the threshold value at undershoot or overshoot can only be performed after the switching delay. Thus a brief undershoot or overshoot of a threshold value is al- lowed.

  • Page 129: Load Control

     ABB i-bus Planning and application 4.1.4 Load control The Load control is a functionality of the Energy Actuator, where the Energy Actuator is parameterized as a master that can control up to ten further Energy Actuators as slaves. The master receives Power values from the slaves that are added internally to the Send sum power values.

  • Page 130: Function Time

     ABB i-bus Planning and application Function of the load control The number of shedding stages that the master can send is determined in accordance with the number of priority stages that should be switched with the slaves. If the system only has two priority stages available, for example (priority 1 = always on;...

  • Page 131: Staircase Lighting

     ABB i-bus Planning and application 4.1.5.1 Staircase lighting The output switches off automatically after the staircase lighting time T With each telegram with value 1, the time restarts (retrigger function), if the parameter Extending staircase lighting by multiple operation ("pumping up") is set to yes in the parameter window...
  • Page 132  ABB i-bus Planning and application Retriggering Via “pumping up”, that is actuation of the push button several time in succession, the user can adapt the staircase lighting to their current needs. The maximum duration of the staircase lighting time can be set in the parameters.

  • Page 133: Switching On And Off Delay

     ABB i-bus Planning and application 4.1.5.2 Switching ON and OFF delay The switching ON and OFF delay delays switch on or switch off of the output. The delay time T or T starts after a switch telegram, and after it has timed out, the output executes the switch telegram.

  • Page 134: Flashing

    144 Benefits ® The function Scene with ABB i-bus devices offers the following decisive advantage: All settings to be undertaken in a scene are stored in the device. Therefore, they must not be sent via the KNX with a scene recall, and only a figure value, which has been assigned to this scene, is neces- sary.

  • Page 135: Function Safety

     ABB i-bus Planning and application At first, the communication object Switch is evaluated with the communication object Logical connection 1. The result is then linked with the communication object Logical connection 2. The following functions Connection/Logic are possible: Values of the communication objects...

  • Page 136: Reaction On Bus Voltage Failure

     ABB i-bus Planning and application Reaction on bus voltage failure The reaction of each individual output at bus voltage failure can be parameterized in parameter window A: General with the parameter Reaction on bus voltage failure. This parameterisation acts directly on the re- lay and has the highest priority.
  • Page 137 In the ETS, a differentiation can normally be made between partial programming and a download of the ® complete application program. ABB i-bus devices generally only perform a partial download even with the selection Application program under the menu item Commissioning > Download. A download of the com- plete application program, provided that only the parameter settings are changed, is unnecessary and takes time.
  • Page 138  ABB i-bus Planning and application Behaviour with: Bus voltage recovery Download ETS reset Full download / applica- tion update Values of the communica- Generally, the values of Values are retained. As with bus voltage As with bus voltage tion objects...
  • Page 139  ABB i-bus Planning and application Load control master Behaviour with: Bus voltage recovery Download ETS reset Full download / applica- tion update Communication objects: Power values are lost and Power values are retained. As with bus voltage As with bus voltage Receive power value X set with the value 0.
  • Page 140  ABB i-bus Planning and application Switch (Output A…C) Behaviour with: Bus voltage recovery Download ETS reset Full download / applica- tion update Communication object: Programmable (Parameter Unchanged. Evaluation Programmable (Parameter Programmable (Parameter Switch window X: General), the only after a new event has...
  • Page 141  ABB i-bus Planning and application Behaviour with: Bus voltage recovery Download ETS reset Full download / applica- tion update Staircase lighting In Parameter window The staircase lighting time As with bus voltage In Parameter window X: Function, you can set if...
  • Page 142  ABB i-bus Planning and application Behaviour with: Bus voltage recovery Download ETS reset Full download / applica- tion update Communication object The value is retained. If If Permanent ON has not Permanent ON is no longer As with ETS reset...
  • Page 143  ABB i-bus Planning and application Meter (total and output A…C) Behaviour with: Bus voltage recovery Download ETS reset Full download / applica- tion update Value of the communica- Is retained. Is retained. Is retained. Is retained. tion object Intermediate meter (total and output A…C)
  • Page 144  ABB i-bus Planning and application Voltage, current, power, active power total, frequency (output A…C) Behaviour with: Bus voltage recovery Download ETS reset Full download / applica- tion update Value of the communica- Is set to the value 0 and...

  • Page 145: Appendix

    ABB i-bus Planning and application Appendix Scope of delivery The ABB i-bus KNX Energy Actuator SE/S 3.16.1 is supplied together with the following components. Please check the items received using the following list. • 1 pc. SE/S 3.16.1, MDRC •...

  • Page 146: Code Table Scene (8 Bit), Dpt 18.001

     ABB i-bus Planning and application Code table Scene (8 bit), DPT 18.001 The following table indicates the telegram code for an 8 bit scene in hexadecimal and binary code with the first 64 scenes. Normally when retrieving or storing a scene, an 8 bit value must be sent.

  • Page 147: Code Table Receive Load Shedding Stage (No. 10), Dpt 236.001

     ABB i-bus Planning and application Code table Receive load shedding stage (no. 10), DPT 236.001 The following table shows the telegram code of the shedding stages in hexadecimal and binary code.        ...

  • Page 148: Code Table Status Byte Output A (No. 62), Non Dpt

     ABB i-bus Planning and application Code table Status byte Output A (No. 62), NON DPT The following table shows you the telegram code of the status byte in hexadecimal and binary code using output A as an example. ...

  • Page 149: Ordering Information

     ABB i-bus Planning and application Ordering Information Device designation Product name Order code bbn 40 16779 Price Weight 1 Pack unit group [Pcs] [kg] SE/S 3.16.1 70977 4 Energy Actuator, 3F, 16/20 A, 2CDG 110 136 R0011 0.265 MDRC...
  • Page 150  ABB i-bus Planning and application Notes 148 2CDC 505 084 D0203 | SE/S 3.16.1...
  • Page 152 +49 (0)6221 701 607 (Marketing) advance notice. Fax: +49 (0)6221 701 724 The agreed properties are definitive for any orders placed. ABB AG shall not be liable for any conse- e-mail: [email protected] quences arising from errors or incomplete informa- tion in this document.

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