AEG Network Card Thyro S H1 User Manual

Operating Instructions

Ethernet Bus Module ProﬁNet

• Thyro-S ...H1, ..HRL1

• Thyro-A ...H1, ..HRL1, ..HRLP1

• Thyro-A …C01, ..C02, ..C03, ..C05, ..C07

• Thyro-Power Manager

• Thyro-Step Controller

• Thyro-Measurement Unit

PERFECT IN FORM AND FUNCTION

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Connection diagrams Thyro-A

10.

11.

Connection diagrams Thyro-S

Connection diagrams Thyro-Step Controller

12.

12.1

12.2

Specific notes

Installation

Service

13.

14.

15.

16.

17.

Technical Data

Dimension drawings

Accessories and options

Approvals and conformity

Appendix A Acyclic parameter tables

List of figures and tables

Fig. 1

Fig. 2

Fig. 3

Fig. 4

Configuration & LED displays

Connection diagram Thyro-A

Connection diagram Thyro-S

Connection diagram TSC

Tab. 1 Connecting terminals (overview)

Tab. 2 Operating display of the bus module

Tab. 3 Interpretation of the master setpoint for Thyro-S

Tab. 4 Cyclic input and output data for Thyro-S…H1

Tab. 5 Cyclic input and output data for Thyro-S…HRL1

Tab. 5b Thyro-S Status / Faults

Tab. 6 Cyclic input and output data for Thyro-A 1A…H1

Tab. 7 Cyclic input and output data for Thyro-A 1A…HRL1

Tab. 8 Cyclic input and output data for Thyro-A 1A…HRLP1

Tab. 9 Cyclic input and output data for Thyro-A 2A…H1

Tab. 10 Cyclic input and output data for Thyro-A 2A…HRL1

Tab. 11 Cyclic input and output data for Thyro-A 2A…HRLP1

Tab. 12 Cyclic input and output data for Thyro-A 3A…H1

Tab. 13 Cyclic input and output data for Thyro-A 3A…HRL1

Tab. 14 Cyclic input and output data for Thyro-A 3A…HRLP1

Tab. 14b Thyro-A Status / Fault

Tab. 15 Cyclic input and output data for Thyro-A 1A…C01

Tab. 16 Cyclic input and output data for Thyro-A 1A…C02

Tab. 17 Cyclic input and output data for Thyro-A 1A…C03

Tab. 18 Cyclic input and output data for Thyro-A 1A…C05

Tab. 19 Cyclic input and output data for Thyro-A 1A…C07

Tab. 20 Supported operating modes

Tab. 21 Cyclic input and output data TPM automatic mode

Tab. 22 Cyclic input and output data TPM manual mode

Tab. 23 Cyclic input and output data TSC mode

Tab. 24 Cyclic input and output data TIO mode

Tab. 25 Cyclic input and output data TMU mode

Tab. 25b TPM, TSC, TIO,TMU Status / Faults

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Contact

Technical queries

Do you have any technical queries regarding the subjects dealt with in these operating instructions?

If so, please get in touch with our team for power controllers:

Tel. +49(0)2902 763-520 or +49(0)2902 763-290

Commercial queries

Do you have any commercial queries on power controllers? If so, please get in touch with our team for

power controllers.

Tel. +49 (0)2902 763-591 or +49 (0)2902 763-558

Service-Hotline

Our team is at your service on the following hotline:

AEG Power Solutions GmbH

Emil-Siepmann-Strase 32

D-59581 Warstein

Tel. +49 (0)2902 763-100

http://www.aegps.de

No part of these operating instructions may be transmitted, reproduced and/or copied by any electronic or

mechanical means without the express prior written permission of AEG Power Solutions.

Further information on copyright

Thyro- is an international registered trademark of AEG Power Solutions GmbH.

Windows and Windows NT are registered trademarks of the Microsoft Corporation.

All other company and product names are (registered) trademarks of the respective owners.

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1. Introduction

The operating instructions below serve only as an addition to be used in conjunction with the operating

instructions of the AEG Power Solutions Thyro-A power controller, Thyro-S power switch, and Thyro-

Power Manager in the versions of the types indicated on the covering page. The safety instructions con-

tained therein are to be observed in particular.

1.1 General

The Ethernet bus module can connect up to 8 power controllers of type Thyro-A and type Thyro-S with a

master in any desired order.

Several bus modules can be used on one system.

The power supply of the bus module comes from an external 24V DC voltage source (150mA), which is to

be fed in (reverse polarity protected) at X11.1 (+) and X11.2 (ground). Several modules can be operated

from one power supply.

As short a ground connection as possible is needed at terminal X11.3 for EMC reasons.

1.2 Special features

• The Ethernet bus module connects the devices with several Ethernet bus systems. By setting the

“Protocol” switch to 0, the Ethernet bus module becomes a ProfiNet IO-device.

• function control via LED

• 8 free application outputs X1 to X8 in each case terminal 5

• C-rail assembly

1.3 Type designation

Ethernet bus module ProfiNet

order-no. 2000 000 846

1.4 Abbreviations

AEG PS

AEG Power Solutions GmbH

Thyro – Power Manager

Thyro – Step Controller

Thyro – Measurement Unit

Thyro Input / Output Unit

TPM

TSC

TMU

TIO

1.5 Warranty

In the event of any claims in connection with the Ethernet bus module, please contact us quoting:

• type designation

• fabrication number / serial number

• reason for the complaint

• environmental conditions of the device

• operating mode

• period of use

Goods and services are subject to the general conditions of supply for products of the electrical industry,

and our general sales conditions. Claims in connection with supplied goods must be submitted within

one week of receipt, along with the delivery note. AEG PS will rescind all obligations such as warranty

agreements, service contracts, etc. entered into by AEG PS or its representatives without prior notice

if maintenance and repair work is carried out using anything other than original AEG PS spare parts or

spare parts purchased from AEG PS.

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2. Safety

2.1 Identification in the operating instructions

In these operating instructions, there are warnings before dangerous actions. These warnings are divided

into the following danger categories:

DANGER

Dangers that can lead to serious injuries or fatal injuries.

WARNING

Dangers that can lead to serious injuries or considerable damage to property.

CAUTION

Dangers that can lead to injuries and damage to property.

CAUTION

Dangers that can lead to minor damage to property.

The warnings can also be supplemented with a special danger symbol (e.g. „Electric current“ or

„Hot parts“) , e.g.

risk of electric current or

risk of burns

In addition to the warnings, there is also a general note for useful information.

NOTE

Content of note

2.2 General danger information

DANGER

Not adhering to the safety stipulations in the operating instructions of the power controllers

used can lead to danger of injury / danger of damaging the device or system.

> Adhere to all safety stipulations in the chapter “Safety” of the operating instructions of the

power controllers being used.

DANGER

Electric current

Risk of injury from current carrying parts / danger of damaging the bus module.

> Never operate the device without the covering.

> Undertake settings and wiring without current being supplied

CAUTION

Danger of damaging the bus module

The current at terminals X1.5 to X8.5 must not exceed 120 mA.

> Check the connection information of the preceding relay.

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NOTE

Communication errors

To avoid communication errors please note the following points:

> Use shielded cables.

> Undertake grounding of the bus module (X1.7 to X8.7). Do not ground additionally at the

power controller.

2.3 Operator requirements

The operator must ensure the following:

- The safety regulations of the operating instructions are observed.

- The accident prevention regulations valid in the respective country of use and the general safety

regulations are observed.

- All safety devices (covers, warning signs etc.) are present, in perfect condition and are used correctly.

- The national and regional safety regulations are observed.

- The personnel has access to the operating instructions and safety regulations at all times.

- The operating conditions and restrictions resulting from the technical data are observed.

- Should abnormal voltages, noises, increased temperatures, vibration or similar occur, the device is

immediately put out of operation and the maintenance personnel is informed

2.4 Personnel requirements

Only qualified electro-technical personnel who are familiar with the pertinent safety and installation regu-

lations may perform the following:

- transport

- installation

- connection

- commissioning

- maintenance

- testing

- operation

These operating instructions must be read carefully by all persons working with or on the equipment prior

to installation and initial start-up

2.5 Intended use

The device may only be used for the purpose for which it was intended, as persons may otherwise be

exposed to dangers (e.g. electric shock, burns) and plants also (e. g. overload). The user must therefore

observe the following points:

- It is not permitted to make any unauthorized modifications to the unit or to use any spare parts or

replacement parts not approved by AEG PS, or to use the unit for any other purpose.

- The warranty obligations of the manufacturer are only applicable if these operating instructions are

observed and complied with.

- The device is a component that cannot function alone.

- Project planning must account for the proper use of the device.

2.6 Use of the device

2.6.1 Operation

- Only switch on the mains voltage at the device when there is no danger to persons, system or load.

- Protect the device against dust and damp.

- Ensure that the ventilation openings are not blocked.

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2.6.2 Prior to installation / commissioning

- If stored in a cold environment: ensure that the device is absolutely dry. (Allow the device a period of at

least two hours to acclimatize before commissioning)

- Ensure sufficient ventilation of the cabinet if mounted in a cabinet.

- Observe minimum spacing.

- Ensure that the device cannot be heated up by heat sources below it. (see page 33, Technical data).

- Ground the device in accordance with local regulations.

- Connect the device in accordance with the connection diagrams.

2.6.3 Maintenance, service, faults

In order to avoid personal and material damages, the user must observe the following:

- Before all work:

> Disconnect the device from all external voltage sources.

> Secure the device against accidentally being switched back on.

> Use suitable measuring instruments and check that there is no voltage present.

> Ground and short circuit the device.

> Provide protection by covers or barriers for any neighboring live parts.

- The device may only be serviced and repaired by trained electro-technical personnel.

2.6.4 Transport

- Only transport the device in the original packaging.

- Protect the device against damage, caused by jolts, knocks and contamination, for instance.

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3. Functions

3.1 Processing the setpoint Thyro-S

Only local setpoints, no bus setpoint

Switching signal (24DC) at the control terminal X22.1 of the Thyro-S

> No wiring of the terminal point X22.4 at the power controller

- The bus module is fully functional. The analog signal from the control terminal X22.1 is used as setpoint

(on/off).

Setpoint from the bus module (X22.3), no local setpoint

> Connect the ground to terminal X22.4 of the power controller.

- The master setpoint of the bus module is used. For this purpose the setpoint is interpreted as the ope-

rating mode.

Bus setpoint, switching over to „local“ in case of bus fault

Only use the setpoint of the bus module if there is an IO connection.

> Connect terminal X22.4 of the power controller to one of the terminals X1.1 to X8.1 of the bus module.

- If there is an IO connection the master set point is used.

If not then the analog signal from the control terminal X22.1 is used as setpoint (on/off).

Switching over to bus / local setpoint switchable for each controller in operation

Individual setpoint from the bus module for each power controller.

> Connect terminal X22.4 of the power controller to one of the terminals X1.5 to X 8.5 of the bus

module.

- The power controllers can be switched over individually (targeted) via the bus between master setpoint

and terminal X22.1

3.2 Processing the setpoint Thyro-A

Only local setpoints, no bus setpoint

Analog input at control terminal X2.4 of Thyro-A

> Do not connect anything to terminal X22.1 of the power controller.

- The bus module is fully functional. The analog signal from the control terminal X2.4 is used as setpoint

(on/off).

Setpoint from the bus module (X22.3), no local setpoint

> Connect the ground to terminal X22.1 of the power controller.

- The master setpoint of the bus module is used.

Bus setpoint, switching over to “local” in case of bus fault

Only use the setpoint of the bus module if there is an IO connection.

> Connect terminal X22.1 of the power controller to one of the terminals X1.1 to X8.1 of the bus module.

- If there is an IO connection the master setpoint is used. If there is no IO connection then the analog

signal from the control terminal X2.4 is used as setpoint.

Switching over to bus / local setpoint switchable for each controller in operation

Individual setpoint from the bus module for each power controller.

> Connect terminal X22.1 of the power controller to one of the terminals X1.5 to X8.5 of the bus module.

- The power controllers can be switched over individually (targeted) via the bus between master setpoint

and terminal X2.4.

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3.3 Processing the setpoint Thyro-Step Controller

Only local setpoints, no bus setpoint

Analog input at control terminal X6.1 or X6.4 (depending on X6.7) of the TSC

> Do not connect anything to terminal X2.1 of the power controller.

- The bus module is fully functional. The analog signal from the control terminal X6.1 or X6.4 is used as

setpoint.

Setpoint from the bus module (X22.3), no local setpoint

> Connect the ground to terminal X2.1 of the TSC.

- The master setpoint of the Ethernet bus module is used.

Bus setpoint, switching over to “local” in case of bus fault

Only use the setpoint of the bus module if there is an IO connection.

> Connect terminal X2.1 of the TSC to one of the terminals X1.1 to X8.1 of the bus module.

- If there is an IO connection the master setpoint is used. If there is no IO connection then the analog

setpoint is used.

Switching over to bus / local setpoint value switchable for each controller in operation

Individual setpoint from the bus module for each power controller.

> Connect terminal X2.1 of the power controller to one of the terminals X1.5 to X8.5 of the bus module.

- The power controllers can be switched over individually (targeted) via the bus between master setpoint

and the analog setpoint.

3.4 Freely addressable digital outputs

> As long as the terminals X1.5 to X8.5 of the bus module are not being used for switching over the set-

point, these can be used as switch outputs.

> Connect the relay to a 24 V DC coil voltage for free use. The idle circuit is integrated. The actuating

current is a maximum 120 mA per output. As a result it is possible to switch over, for example, the room

ventilators, anti-condensation heating, circuit breakers or control lamps via the bus.

Relais Control

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4. Installation

DANGER

Dangers during Installation

Risk of injury / Risk of damage to the device or plant

Observe all safety regulations in the chapter “Safety”.

4.1 Connection terminals (overview)

Tab.1 Connecting terminals (overview)

Terminal

Description

X11

24V (+)

24V (ground)

grounding, carry out as short as possible

X1 - X8

jointly switchable ground potential

RxD

TxD

ground

separately switchable ground potential

ground

ground potential for shield connection

Connection diagram see page 30.

4.2 Connecting a 24 V power supply

> Switch off the main power supply including the external 24 V power source and make sure these cannot

be accidentally switched back on again.

> Connect the external 24 V voltage supply (150 mA) to X11.1 (+) and X11.2 (-) (reverse polarity protec-

tion).

> Ground the X11.3 terminal by as short a route as possible (for EMC reasons).

REMARK

24 V DC power source

Several bus modules can be operated with one power supply.

> In cases of SELV (safety extra low voltages) do not ground the 24 V power source.

4.3 Connecting the power controller to X1-X8

> Switch off the main power supply including the external 24 V power source and make sure these cannot

be accidentally switched back on again.

> Connect the interfaces X1 to X8 of the bus module to the system interfaces of the power controller

(shielded four-wire cable)

Attention: To control all parameters by ProfiNet we recommend closing the Thyro-A switches S1.3, S1.4,

S1.5 (Thyro-Tool Mode).

4.4 Connecting the Ethernet bus module to the master

The Ethernet bus module has two Ethernet ports which are equipped with a switch functionality which

allows a line topology to be constructed.

A standard patch cable is required for connecting with a switch. For a direct connection (line topology) a

cross-over cable is required.

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5. Settings

5.1 Setting the protocol

The Ethernet bus module supports various real time Ethernet bus systems. The desired system can be

selected using the rotary switch “Protocol”. For ProfiNet this needs to be set to 0.

5.2 Setting the number of slots

The number of devices which are connected to the Ethernet bus module is set with the rotary switch

“Slots”. After switching on, the Ethernet bus module reads all the parameters of the device. Following this

it starts communicating.

Attention: To change the number of slots when switched on, the switch “Slots” must first be turned to 0.

Communication with the master is then interrupted. Following this the desired number can be set. After

leaving the position 0 you have about 2 seconds time for this.

5.3 Setting the device name

Every IO device is identified by its device name. The setting of the device name can be undertaken using,

for example, the program “Step 7 – HW Config” in the menu “Target system / Ethernet / Edit Ethernet

participant…”

Fig. 1 Configuration & LED displays

1 Terminal X1

2 Terminal X2

3 Terminal X3

4 Terminal X4

5 Terminal X5

6 Terminal X6

7 Terminal X7

8 Terminal X8

9 Ethernet Port

10 Terminal X11

11 SYS LED

12 COM0 (BF) LED

13 COM1 (SF) LED

14 Fault LED

15 Switch Slots

16 Switch Protocol

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5.4 Operating display of the bus module

Table 2 Operating display of the bus module

LED

Color

Green

Red

Status

Meaning

SYS

Operating system running

Error in boot process

Flashing with 1Hz

Red

Waiting for boot process (check position of

“Protocol” switch)

Off

No supply voltage

COM0 (BF)

Red

No physical connection

No data exchange

Flashing with 2Hz

Off

The device is exchanging data with the ProfiNet IO

Controller

COM1 (SF)

Fault

Red

Off

Watchdog time out or system error

No error

Hardware error

Operating status of the Ethernet bus module

LED

Color

Green

Yellow

Status

Meaning

Link

There is an Ethernet connection

Data are being exchanged via Ethernet

Activity

Status LED of the Ethernet Ports

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6. Operation

6.1 Start configuration (parameterization)

Via the parameterization (in step 7 – HW Config, double-click on slot 0 of the bus module, parameter tab)

the following settings can be undertaken.

No connection (slot 1-8):

Here you can set what should happen with the output data of the devices if the connection to the master

is interrupted.

Hold last values

Outputs = 0

The output data are not changed.

The output data are set to 0

No connection (slot 9):

Here you can set what should happen with the output data of the bus module if the connection to the

master is interrupted.

Hold last value

Outputs = 0

The digital outputs are not changed.

The digital outputs are set to 0.

Averaging of the measured values:

Here you can enter the number of actual values which flow into the averaging. A new value is calculated

once a second. Values from 0-20 can be entered, whereby 0 or 1 deactivates this function.

Remove device when it is switched off:

Not all devices are equipped with a 24 V supply connection. When switching off the Thyro mains supply

and the control voltage supply (24V) the Thyro no longer communicates with the bus modules. A switched

off device will normally be displayed as pull. This display can be suppressed here.

Deactivate

Devices which are no longer accessible (no communication) will continue to

be displayed as plug.

Activate

Devices which are no longer accessible will be displayed as pull.

Use output data:

The suppression of certain output data can be activated here.

Always

New output data are transferred immediately.

Only when Bit is set

New output data are only transferred, if the Bit 0 is set in the output

“Functions”

6.2 Cyclical data transmission (configuration)

The configuration of the cyclical data traffic is undertaken by adding modules.

The input and output data depend on the device types. The following tables show the input and output

data available for each of the devices.

6.3 Input and output data Thyro-S

With the Thyro-S the setpoint is interpreted as operating mode.

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Tab. 3 Interpretation of the master setpoint with Thyro-S

Setpoint (Master)

0 to 409

Status (return value)

(Total setpoint)

= OFF

1/5

0 =

819

410 to 1091

1092 to 1706

1707 to 3071

3072 to 4096

= 1/3

1/2

1365 =

2047

4096

= ON

Tab. 4 Cyclic input and output data with Thyro-S ..H1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Mains voltage L1

Total setpoint

integer

Data type

integer

[V]

4096=100%

Fault (see table 5b)

Status (see table 5b)

Output data, setpoint

Master Setpoint

Offset

Size

Unit

4096=100%

Tab. 5 Cyclic input and output data with Thyro-S ..HRL1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load current L1

float

[A]

Mains voltage L1

Total setpoint

integer

Data type

integer

[V]

Offset

4096=100%

Fault (see table 5b)

Status (see table 5b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 5b Thyro-S Faults

Description

Bit

Bit 0

Bit 1

Bit 2

Bit 3

Bit 4

LEDs

Relay

open

Frequency measurement outside of 47 Hz to 63 Hz

SYNC error, no zero-crossing within the gate

Temperature monitoring triggered

Load fault

Test LED flashing slowly

Load Fault flashing slowly

Load Fault on

Flash values invalid

Test LED and Load Fault LED

flashing simultaneously quickly

Mains undervoltage (<AD_P_SPG_MIN)

Mains overvoltage (>AD_P_SPG_MAX)

Bit 5

Bit 6

Load Fault LED and Test LED on

None

open

closed

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Tab. 5b Thyro-S Status

Description

Bit

Bit 0

Bit 2

Bit 8

Bit 9

Bit 10

Bit 11

LEDs

Relay

open

closed

----

Pulse inhib active

none

(bridge X2.1-X2.2 open)

Mains frequency is 60Hz

Relay status

(0=relay off / 1=relay on)

Device switched off

Wrong device

Bus module active

none

----

(0=no bus module / 1=bus module active)

Thyristor short-circuit

Bit 14

Test LED and Load Fault LED

flashing alternately slowly

----

6.4 Input and output data Thyro-A

Tab. 6 Cyclic input and output data with Thyro-A 1A...H1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Mains voltage L1

integer

Data type

integer

[V]

[period]

[0.01 °el]

4096=100%

Switch-on time TS

Switch-on angle alpha

Total setpoint

Offset

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 7 Cyclic input and output data with Thyro-A 1A...HRL1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load current L1

float

[A]

Mains voltage L1

Switch-on time TS

Switch-on angle alpha

Total setpoint

integer

Data type

integer

[V]

[period]

[0.01 °el]

4096=100%

Offset

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

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Tab. 8 Cyclic input and output data with Thyro-A 1A...HRLP1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load current L1

float

[A]

Power L1

float

[W]

Mains voltage L1

Switch-on time TS

Switch-on angle alpha

Total setpoint

integer

Data type

[V]

[period]

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Offset

Size

Unit

Master setpoint

integer

4096=100%

Tab. 9 Cyclic input and output data with Thyro-A 2A...H1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load voltage L3

float

[V]

Mains voltage L1

Mains voltage L3

Switch-on time TS

Total setpoint

integer

Data type

integer

[V]

Offset

[V]

[period]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 10 Cyclic input and output data with Thyro-A 2A...HRL1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load voltage L3

Load current L1

float

[V]

float

[A]

Offset

Load current L2

float

[A]

Load current L3

float

[A]

Mains voltage L1

Mains voltage L3

Switch-on time TS

Total setpoint

integer

Data type

integer

[V]

[period]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

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Tab. 11 Cyclic input and output data with Thyro-A 2A...HRLP1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load voltage L3

Load current L1

Load current L2

Load current L3

Power L1

float

[V]

float

[A]

Offset

float

[A]

float

[A]

float

[W]

Power L3

float

[W]

Total power

float

[W]

Mains voltage L1

Mains voltage L3

Switch-on time TS

Total setpoint

integer

Data type

integer

[V]

[period]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 12 Cyclic input and output data with Thyro-A 3A...H1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load voltage L2

float

[V]

Load voltage L3

float

[V]

Offset

Mains voltage L1

Mains voltage L2

Mains voltage L3

Switch-on time TS

Switch-on angle alpha

Total setpoint

integer

Data type

integer

[V]

[period]

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

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Tab. 13 Cyclic input and output data with Thyro-A 3A...HRL1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load voltage L2

float

[V]

Load voltage L3

float

[V]

Offset

Load current L1

float

[A]

Load current L2

float

[A]

Load current L3

float

[A]

Mains voltage L1

Mains voltage L2

Mains voltage L3

Switch-on time TS

Switch-on angle alpha

Total setpoint

integer

Data type

integer

[V]

[period]

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 14 Cyclic input and output data with Thyro-A 3A...HRLP1

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load voltage L2

Load voltage L3

Load current L1

Load current L2

Load current L3

Power L1

float

[V]

float

[V]

Offset

float

[A]

float

[A]

float

[A]

float

[W]

Power L2

float

[W]

Power L3

float

[W]

Total power

float

[W]

Mains voltage L1

Mains voltage L2

Mains voltage L3

Switch-on time TS

Switch-on angle alpha

Total setpoint

integer

Data type

integer

[V]

[period]

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

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Tab. 14a Thyro-A Fault

Description

Bit

Bit 0

Bit 1

Bit 2

Bit 3

Bit 4

LEDs

Relay

open

Frequency measurement outside of 47Hz to 63Hz

SYNC error, no cero crossing within the gate

Temperature monitoring triggered

Load fault

Pulse Inhibit LED flashing slowly

Load Fault LED flashing slowly

Load fault LED on

Flash values invalid

Pulse Inhibit LED and Load

Fault LED flashing simultaneous-

ly qickly

Mains undervoltage (<AD_P_SPG_MIN)

Bit 5

Pulse Inhibit LED, Load Fault

LED and test LED on

open

Mains overvoltage (>AD_P_SPG_MAX)

Master / slave fault (only with2A)

Undervoltage limit

Bit 6

none

open

Bit 8

closed

Bit 9

Overvoltage limit

Bit 10

Bit 11

Bit 12

Bit 13

Bit 14

Undercurrent limit

Overcurrent limit

Low power limit

High power limit

Tab. 14b Thyro-A Status

Description

Pulse inhib active (bridge X2.1-X2.2 open)

Mains frequency is 60Hz

Bit

Bit 0

Bit 2

Bit 4

LEDs

Pulse Inhibit LED on

none

Relay

closed

U-limiting

Pulse Inhibit LED and Load

Fault LED flashing alternately

slowly

I-limiting

Bit 5

Bit 6

Pulse Inhibit LED and Load

Fault LED flashing alternately

slowly

closed

P-limiting

Pulse Inhibit LED and Load

Fault LED flashing alternately

slowly

Relay status

Bit 8

none

on/off

(0=relay off / 1=relay on)

Device switched off

Wrong device

Bit 8

none

Bit 9

Bit 10

Bit 11

Bus module active

only with Thyro-S

-----

(0=no bus module / 1=bus module active)

Thyristor short-circuit

Bit 14

Bit 15

only with Thyro-S

none

----

Failure rotating field / phase

(only Thyro 2A or 3A)

closed

Pulse Inhibit LED and Test LED

flashing simultaneously slowly

Overcurrent limit

Low power limit

High power limit

Bit 12

Bit 13

Bit 14

none

closed

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Tab. 15 Cyclic input and output data with Thyro-A 1A...C01

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load current L1

float

[A]

Power L1

float

[W]

Offset

Mains voltage L1

Switch-on time TS

Switch-on angle alpha

Total setpoint

integer

Data type

integer

[V]

[period]

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 16 Cyclic input and output data with Thyro-A 1A...C02

Offset

Input data, actual values

Load voltage phase 1

Data type

float

Size

Unit

[V]

Load current phase 1

Load current phase 2

Total load current

float

[A]

float

[A]

Offset

float

[A]

Mains voltage L1

integer

Data type

integer

[V]

Switch-on angle alpha phase 1

Total setpoint

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 17 Cyclic input and output data with Thyro-A 1A...C03

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load current L1

float

[A]

Power L1

float

[W]

Offset

Mains voltage L1

Switch-on time TS

Switch-on angle alpha

Total setpoint

integer

Data type

integer

[V]

[period]

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint values

Master setpoint

Size

Unit

4096=100%

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Tab. 18 Cyclic input and output data with Thyro-A 1A...C05

Offset

Input data, actual values

Load voltage phase 1

Data type

float

Size

Unit

[V]

Load current phase 1

Load current phase 2

Total load current

Power phase 1

float

[A]

float

[A]

Offset

float

[A]

float

[W]

Power phase 2

float

[W]

Total power

float

[W]

Mains voltage L1

integer

Data type

integer

[V]

Switch-on angle alpha phase 1

Total setpoint

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Tab. 19 Cyclic input and output data with Thyro-A 1A...C07

Offset

Input data, actual values

Load voltage L1

Data type

float

Size

Unit

[V]

Load current L1

float

[A]

Power L1

float

[W]

Offset

Mains voltage L1

Load temperature

Switch-on angle alpha

Total setpoint

integer

Data type

integer

[V]

[°C]

[0.01 °el]

4096=100%

Fault (see table 14b)

Status (see table 14b)

Output data, setpoint

Master setpoint

Size

Unit

4096=100%

Supported operating modes TPM; TSC; TMU

With the Thyro-Power Manager, Thyro-Step Controller and Thyro-Measurement Unit the input and output

data are depend on the operating mode. The following table shows which operating mode the devices

support.

Tab. 20 Supported operating modes

TPM

TSC

TIO

TMU

automatic

manual

Thyro-Power Manager

Thyro-Step Controller

Thyro-Measurement Unit

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6.5 Input and output data Thyro-Power Manager

Tab. 21 Cyclic input and output data TPM automatic mode

Offset

Input data, actual values

AC input 1

Data type

float

Size

Unit

[A],[V]

[W]

AC input 2

float

AC input 3

float

Power

float

Energy

float

[kWh]

4096=100%

[V]

DC input 1

integer

DC input 2

DC input 3

Mains voltage

Period duration

Temperature

Fault (see table 25b)

Status (see table 25b)

[μs]

[°C]

Tab. 22 Cyclic input and output data TPM manual mode

Offset

Input data, actual values

AC input 1

Data type

float

Size

Unit

[A],[V]

[W]

AC input 2

float

AC input 3

float

Power

float

Energy

float

[kWh]

4096=100%

[V]

DC input 1

integer

DC input 2

DC input 3

Mains voltage

Period duration

Temperature

Fault (see table 25b)

Status (see table 25b)

[μs]

[°C]

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6.6 Input and output data Thyro-Step Controller

Tab. 23 Cyclic input and output data TSC mode

Offset

Input data, actual values

AC input 1

Data type

float

Size

Unit

[A],[V]

[W]

AC input 2

float

AC input 3

float

Offset

Power

float

Energy

float

[kWh]

DC input 1

integer

Integer

Data type

integer

4096=100%

[V]

DC input 2

DC input 3

Mains voltage

Period duration

Temperature

Fault (see table 25b)

Status (see table 25b)

Analog output 4

Steps

[μs]

[°C]

4096=100%

Total setpoint

Output data, setpoint

Master setpoint

4096=100%

Unit

Size

4096=100%

6.7 Input and output data Thyro Input/Output Unit

Tab. 24 Cyclic input and output data TIO mode

Offset

Input data, actual values

AC input 1

Data type

float

Size

Unit

[A],[V]

AC input 2

float

[A],[V]

AC input 3

float

[A],[V]

Offset

Power

float

[W]

Energy

float

[kWh]

DC input 1

integer

Data type

integer

4096=100%

[V]

DC input 2

DC input 3

Mains voltage

Period duration

Temperature

Fault (see table 25b)

Status (see table 25b)

Output data, setpoint

Digital output

Analog output 1

Analog output 2

Analog output 3

Analog output 4

Analog output 5

Analog output 6

[μs]

[°C]

Size

Unit

4096=100%

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6.8 Input and output data Thyro-Measurement Unit

Tab. 25 Cyclic input and output data TMU mode

Offset

Input data, actual values

AC input 1

Data type

float

Size

Unit

[A],[V]

[W]

AC input 2

float

AC input 3

float

Power

float

Energy

float

[kWh]

4096=100%

[V]

DC input 1

integer

DC input 2

DC input 3

Mains voltage

Period duration

Temperature

Fault (see table 25b)

Status (see table 25b)

[μs]

[°C]

Tab. 25b Status TPM, TSC, TIO, TMU

Description

Bit

Fault LED, fault output*

Frequency measurement outside of 47Hz to 63Hz

SYNC error, no cero crossing within the gate

Temperature max. limit has been exceeded

Temperature min. limit has been exceeded

One or more parameters outside the limits

Mains voltage lower than lower voltage limit

Bit 0

Bit 1

Bit 2

Bit 3

Bit 4

Bit 5

Tab. 25b Fault TPM, TSC, TIO, TMU

Description

Mains frequency is 60Hz

Bit

Alarm LED, alarm output*

Bit 2

Bit 3

Bit 4

Bit 5

Bit 6

Bit 7

Bit 8

Bit 9

Bit 10

Bit 11

off

Transformer 1 fallen below min. limit

Transformer 1 exceeded max. limit

Transformer 2 fallen below min. limit

Transformer 2 exceeded max. limit

Transformer 3 fallen below min. limit

Transformer 3 exceeded max. limit

Device switched off

Wrong device

Bus module active (0=no bus module / 1=bus module

active)

off

* Default setting can be parameterized.

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6.9 Acyclic data transmission (parameterization)

Via the acyclic parameter data transmission, parameters of the devices can be changed or selected.

Cyclical and acyclical services can be used in the network simultaneously.

Read data record “RDREC”:

For reading access to a data record, the slot, index and length of the data record must be entered. At step

7 and when using the SFB 52 the Logical Address of the slot is to be entered instead of the slot. As such

the device at slot X1 is to be activated as the device at slot 1.

Error code

DE80B000

DE80B100

DE80B200

DE80B300

Meaning

The unit does not recognize the parameter (invalid index)

The length entry of the parameter is incorrect

The projected slot is not occupied

The actual unit type does not match the set unit type

Write data record “WRREC”:

For writing access to a data record, the slot, index, length of the data record and the new value must be

entered. At step 7 and when using the SFB 53 the Logical Address of the slot is to be entered instead of

the slot.

Error code

DF80B000

DF80B100

DF80B200

DF80B300

DF80B600

DF80B700

Meaning

The unit does not recognize the parameter (invalid index)

The length entry of the parameter is incorrect

The projected slot is not occupied

The actual unit type does not match the set unit type

The parameter cannot be changed

Invalid range of values of a parameter

You will find the parameter tables (acyclic) of each of the device types in Appendix 17 (A).

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7. External connections

7.1 Power supply

+24V to X11, current consumption approx. 150mA

bridge (contact)

Thyro-S: see chapter 3.1

Thyro-a: see chapter 3.2

TPM: see chapter 3.3

X1 - X8 to the power controllers

supply

24V DC (approx. 150mA)

The foregoing circuit diagram shows the connection of the bus module

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7.2 Operating elements and terminal blocks

This chapter describes the available terminal blocks, plug connectors and operating elements.

Configuration of the 7 pin connector of slots X1 to X8:

Switched ground potential. All pins 1 of slots X1 – X8 are connected.

RxD

TxD

Ground

Switchable ground potential. The slots X1 – X8 can be switched as desired.

Ground

Ground potential for shield connection

Configuration of the 3 pin connector X11:

X11:

+24V

24V - ground

Grounding, carry out by as short a route as possible.

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8. Interfaces

8.1 System interface

The bus module is connected with the relevant system interfaces of the power controllers via X1 to X8

(four-wire, 2x2 twisted, shared shielding).

The transmission rate is 38,400 Bd.

The asynchronous characters are transferred with 8bit, no parity, one stop bit. The protocol begins with

STX, followed by an identifier, the data, and is concluded with a check sum. Defective protocols are

ignored.

8.2 Ethernet interfaces

Communication medium

CAT 5e

Network topology

tree, star and line

100m

Maximum cable length

ProfiNET-participants

restricted to the maximum supported number of devices by the con-

troller used

PNO identification number0x0188

Device ID

0x0001

Transmission rate

100 Mbit/s

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9. Connection diagrams Thyro-A

Fig. 2 Connection diagram Thyro-A

bus setpoint is

active

analog input is

active

setpoint

*blank

bus setpoint/

analog input

bus setpoint/

analog input

bus setpoint/

analog input

setpoint 1

setpoint 2

setpoint 8

group switching

bus setpoint/analog input

bus setpoint/

analog input

bus setpoint/

analog input

bus setpoint/

analog input

setpoint 1

setpoint 2

setpoint 8

selective switching

bus setpoint/analog input

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10. Connection diagrams Thyro-S

Fig. 3 Connection diagram Thyro-S

bus setpoint is

active

analog input is

active

setpoint

*blank

bus setpoint/

analog input

bus setpoint/

analog input

bus setpoint/

analog input

setpoint 1

setpoint 2

ON/OFF

setpoint 8

ON/OFF

group switching

bus setpoint/analog input

bus setpoint/

analog input

bus setpoint/

analog input

bus setpoint/

analog input

setpoint 1

setpoint 2

setpoint 8

ON/OFF

selective switching

bus setpoint/analog input

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11. Connection diagrams TSC

Fig. 4 Connection diagram TSC

bus setpoint is

active

analog input is

active

setpoint

*blank

bus setpoint/

analog input

bus setpoint/

analog input

bus setpoint/

analog input

setpoint 1

setpoint 2

setpoint 8

group switching

bus setpoint/analog input

bus setpoint/

analog input

bus setpoint/

analog input

bus setpoint/

analog input

setpoint 1

setpoint 2

setpoint 8

selective switching

bus setpoint/analog input

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12. Specific notes

12.1 Installation

The bus modules can be installed in any desired order.

12.2 Service

The devices supplied have been produced in accordance with the quality standard ISO 9001. Should there

be faults in spite of this, our 24 hour service hotline is on hand, tel.: +49 (0)2902 763-100.

13. Technical Data

Power supply

24V DC 150mA

Connection options for

up to 8 AEG power controllers of series Thyro-S, Thyro-A and the TPM

series

Function control

Assembly

LED

DIN rail

Ambient temperature

Dimensions (WxDxH):

Weight circa:

maximum 55°C

150 x 60 x 95 mm

0.35 kg

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14. Dimension drawings

55 mm height

incl. cover

15. Accessories and options

Ready-made bus module-side shielded cable.

A set of cable consists of 4 connection cables for connecting 4 power controllers.

Order number 2000 000 848

Order number 2000 000 849

Bus module connection cable for 4 controllers, 2.5 m long

Bus module connection cable for 4 controllers, 1.5 m long

16. Approvals and conformity

- Quality standard in acc. with EN ISO 9001

- CE conformity

- ProfiNet conformity

- RoHS compliant 5/6

- Directives

The CE mark on the device confirms compliance with the EC directives 2006 / 95 / EEC for low voltage

and 2004 / 108 / EEC for electromagnetic compatibility if the instructions on installation and commissio-

ning described in the operating instructions are followed.

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In detail

ProfiNet

IEC 61158

IEC 61784

Built-in device (VDE0160)

Storage temperature (D)

Transport temperature

Operating temperature (better B)

Humidity class

EN 50 178

-25°C - +55°C

-25°C - +70°C

-10°C - +55°C

EN 50 178 tab. 7 (EN 60 721)

EN 50 178 tab. 2

900mbar * 1000m above sea level

EN 69 529

Degree of contamination

Air pressure

Degree of protection

EMC-testing

IP00

EN 61000-6-2 (-4)

CISPR 16

Emitted interference

Radiated immunity

Conducted immunity

ESD

EN/IEC 61000-4-3

EN/IEC 61000-4-6

EN/IEC 61000-4-2

EN 61000-4-4

8kV (A)

1kV (A)

Burst control lines

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17. Appendix A

1. Acyclic parameter table Thyro-S; Thyro-A; -C01; -C02; -C03; -C05

Table A: Thyro-S.., Thyro-A.., Thyro-A-C01; -C02; -C03; -C05 controller parameters slot 1-8

Controller parameter

Index Symbol

Name

Data type Value range

Combo-opt.

I_TYP

U_TYP

P_TYP

BETR

AN1

Controller type current

Controller supply voltage

Controller type output power

Operating mode

u16

u32

u16

0…

0…1000

0…

0…3

Reserved, TAKT, VAR, QTM

Phase angle of 1st half wave

Soft start duration (given)

Soft stop duration (given)

Cycle period duration

Minimum interval

0…180

0…1000

0…10

1…T0

0…T0

0…180

0…8

SST

SDN

TSMAX

TSMIN

V_IE

H_IE

Maximum cycle turn on time

Minimum cycle turn on time

Front pulse stop

Back pulse stop

Control (analog output value)

U_load2, U_{load eff}, I_load2, I_{load eff}, reserved, real power,

reserved, reserved, without regulation

TI_1

PI controller, I part

u16

u32

u16

0= aus 0…65535

KP_1

PI controller, P part

0= aus 0…65535

KR_1

PI controller, counter P part

Front pulse stop phase 2

Effective voltage setpoint maximum

Effective current setpoint maximum

Power setpoint maximum

Setpoint activation

0…65535

0…180

0…

V_IE_2

UEMA

IEMA

0…

PMA

0…

SW_ENABLE

0…3

Bit0=1 setpoint x2.4 active, Bit1=1 setpoint

master active

SW_REGLER

OF_1

Setpoint x2.4

u16

u32

0…4096

0…1000

0…1

Actual value output offset 1

Scale end value actual value output 1

Mains voltage monitoring min.

Mains voltage monitoring max.

Undercurrent monitoring

Relay configuration 2

FA_1

SPG_MIN

SPG_MAX

UN_S

on, off

RELAIS_CTRL_2

0…65535

0…4505

0…65535

bit coded

LASTBRUCH_MIN_ABS Load fault, minimum value

SYNC_ADR

IMAB

Synchro cycle address

Pulse switch-off in case of failure

Control start controller analog setpoint

Control end controller analog setpoint

Configuration 3A

bit coded

STA_RE

STE_RE

MOSI_FA

DAC_1_CTRL

VERS_T

Peak current value limit

Analog output configuration 1

Version day

0…4096

0…10

1…31

VERS_M

VERS_J

Version month

1…12

Version year

0…9999

0…1

Controller inhibit

on, off

RELAIS_CTRL

Relay configuration 1

0…65535

0…1

bit coded

off, save

Save

MITTEL

TEMP

Averaging analog output 1

Temperature

0…65535

-50…150

0…65535

0…4096

0…10

109

110

111

112

115

116

117

118

119

120

121

122

123

124

MITTEL_2

OF_2

Averaging analog output 2

Actual value output offset 2

Scale end value actual value output 2

Analog output configuration 2

Averaging analog output 3

Actual value output offset 3

Scale end value actual value output 3

Analog output configuration 3

Voltage limit minimum

Voltage limit maximum

Current limit minimum

Current limit maximum

Power limit minimum

FA_2

DAC_2_CTRL

MITTEL_3

OF_3

0…65535

0…4096

0…10

FA_3

DAC_3_CTRL

U_MIN

0…65535

0…

U_MAX

I_MIN

I_MAX

P_MIN

P_MAX

Power limit maximum

0…

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Unit

R / W

Default

Note

Index

type

H RLP1

S1.1-2

R201

r/w *

r/w

r/w*

r/w *

r/w

r/w *

TAKT

60˚el

˚el

period

˚el

6 period

R201

50 period R201

3 period

50 period

0 period

180˚el

R201

˚el

0˚el

Uload²

S1.3-5 power only with H RLP1

r/w

r/w *

period

0.1 V

0.1 A

440V

110A

R 202 **

R 203

R 202 **

4096=100%

20/4096mA r/w *

0mA

S1.9

1/819

r/w *

r/w

R 204

type

off

r/w

r/w *

r/w

R 205

100/4096% r/w *

100

period /2

r/w

20/4096mA r/w *

0mA

20mA

S1.6

20/4096mA r/w

r/w

type

r/w

off

447

off

100

°C

r/w

100

0mA

109

110

111

112

115

116

117

118

119

120

121

122

123

124

20/4096mA r/w

S1.9

1/819

r/w

R 204

100

0mA

20/4096mA r/w

S1.9

1/819

r/w

R 204

0.1 V

0.1 A

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2. Acyclic parameter table Thyro-C07

Table B: Thyro-C07 controller parameters slot 1-8

Controller parameter

Symbol

Name

Data

type

Value

range

Combo-opt.

I_TYP

U_TYP

P_TYP

BETR

AN1

Controller type current

Controller supply voltage

Controller type output power

Operating mode

u16

u32

u16

0…

0…1000

0…

0…3

reserved, TAKT, VAR, QTM

Phase angle of 1st half wave

0…180

0…1000

0…10

1…T0

0…T0

0…180

0…9

SST

SDN

Soft stop duration (given)

Cycle period duration

Minimum interval

TSMAX

TSMIN

V_IE

H_IE

Maximum cycle turn on time

Minimum cycle turn on time

Front pulse stop

Back pulse stop

Control (analog output value)

Uload2, Uload eff, Iload2, Iload eff, reserved, real power,

reserved, reserved, without regulation, temperature

TI_1

PI controller, I part

PI controller, P part

u16

0= aus

0…65535

0= aus

0…65535

0…

KP_1

KR_1

PI controller, counter P part

Temperature coefficient of the heating tape

Effective voltage setpoint maximum

Effective current setpoint maximum

Power setpoint maximum

u16

u32

u16

UEMA

IEMA

0…

PMA

0…

SW_ENABLE

SW_REGLER

OF_1

Setpoint activation

0…3

bit0=1 setpoint x2.4 active, bit1=1 setpoint master active

Setpoint x2.4

0…4096

0…1000

0…1

Actual value output offset 1

Scale end value actual value output 1

Mains voltage monitoring min.

Mains voltage monitoring max.

Undercurrent monitoring

FA_1

SPG_MIN

SPG_MAX

UN_S

off, on

RELAIS_CTRL_2

Relay configuration 2

0…65535

0…4505

bit coded

LASTBRUCH_MIN_ Load fault, minimum value

ABS

SYNC_ADR

IMAB

Synchro cycle address

Pulse switch-off in case of failure

Control start controller analog setpoint

Control end controller analog setpoint

Peak current value limit

Analog output configuration 1

Version day

u16

u32

0…65535

0…4096

0…11

bit coded

STA_RE

STE_RE

MOSI_FA

DAC_1_CTRL

VERS_T

VERS_M

VERS_J

1…31

Version month

1…12

Version year

0…9999

0…1

Controller inhibit

off, on

RELAIS_CTRL

Relay configuration 1

0…65535

0…1

bit coded

off, save

Save

MITTEL

TEMP

Averaging analog output 1

Temperature

0…65535

-50…150

0…65535

0…4096

0…11

109 MITTEL_2

110 OF_2

Averaging analog output 2

Actual value output offset 2

Scale end value actual value output 2

Analog output configuration 2

Averaging analog output 3

Actual value output offset 3

Scale end value actual value output 3

Analog output configuration 3

Voltage limit minimum

Voltage limit maximum

Current limit minimum

111 FA_2

112 DAC_2_CTRL

115 MITTEL_3

116 OF_3

0…65535

0…4096

0…11

117 FA_3

118 DAC_3_CTRL

119 U_MIN

120 U_MAX

121 I_MIN

0…65535

0…

122 I_MAX

Current limit maximum

Power limit minimum

123 P_MIN

124 P_MAX

Power limit maximum

0…

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unit

R / W

Default

Note

Index

type

H RLP1

S1.1-2

R201

r/w *

r/w

r/w*

r/w *

r/w

r/w *

TAKT

60°el

°el

period

°el

6 period

50 period

3 period

50 period

0 period

180°el

R201

°el

0°el

Uload2

S1.3-5 power only with 16

H RLP1

r/w

0.1V

0.1A

r/w *

440V

110A

R202**

R203

R202**

4096=100%

20/4096mA

r/w *

r/w

0mA

S1.9

1/819

R204

type

off

r/w

r/w *

r/w

R205

100/4096%

period/2

r/w *

r/w

r/w *

r/w

100

20/4096mA

0mA

20mA

type

S1.6

r/w

off

447

off

100

°C

r/w

100

0mA

109

110

111

112

115

116

117

118

119

120

121

122

123

124

20/4096mA

1/819

S1.9

R204

100

0mA

20/4096mA

1/819

S1.9

R204

0.1V

0.1A

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3. Acyclic parameter table Thyro-Power Manager

Table C: TPM parameters slot 1-8

Controller parameter

Symbol

Name

Data

type

Value

range

Combo-opt.

bit coded

W1_TYP

W2_TYP

W3_TYP

W_CTRL

U_TYP

Type value transformer 1

Type value transformer 2

Type value transformer 3

Transformer setting

u16

1...65535

0...65535

1…260

1…1500

2…10

Type value U mains

ANZ

Number

T01

1st time / phase 1

2nd time / phase 2

3rd time / phase 3

4th time / phase 4

5th time / phase 5

6th time / phase 6

7th time / phase 7

8th time / phase 8

9th time / phase 9

10th time / phase 10

Offset 1

0…T0

T02

0…T0

T03

0…T0

T04

0…T0

T05

0…T0

T06

0…T0

T07

0…T0

T08

0…T0

T09

0…T0

T10

0…T0

DAC1_OF

DAC1_FA

DAC1_CTRL

0…4095

0…4096

1…16

Scale end value 1

Output value 1

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC2_OF

DAC2_FA

Offset 2

u16

0…4095

0…4096

1…16

Scale end value 2

Output value 2

DAC2_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC3_OF

DAC3_FA

Offset 3

u16

0…4095

0…4096

1…16

Scale end value 3

Output value 3

DAC3_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC4_OF

DAC4_FA

Offset 4

u16

0…4095

0…4096

1…16

Scale end value 4

Output value 4

DAC4_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC5_OF

DAC5_FA

Offset 5

u16

0…4095

0…4096

1…16

Scale end value 5

Output value 5

DAC5_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC6_OF

DAC6_FA

Offset 6

u16

0…4095

0…4096

1…16

Scale end value 6

Output value 6

DAC6_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC_MITTEL

SPG_MIN

SPG_MAX

W1_MAX

Average

u16

f32

1…65535

0…5120

0…8192

0...65535

1…31

Lower limit mains voltage

Upper limit mains voltage

Limit transformer 1

Limit transformer 2

Limit transformer 3

Monitoring mode transformer

Fault output

W2_MAX

W3_MAX

WA_CTRL

bit coded

Alarm output

Vers_D

Vers_M

Vers_Y

Firmware version day

Firmware version month

Firmware version year

Save

1…12

0…9999

0…1

off, save

Operating hours

Limiting value temperature

Energy

0…

TEMP_MAX

u16

f32

0…255

0…

105

106

107

108

109

110

121

123

124

Analog output 1

Analog output 2

Analog output 3

Analog output 4

Analog output 5

Analog output 6

Device number

u16

u32

u16

u32

u16

0…4096

0…

Serial number

0…

PCB number

0…

126 F_MIN_MAX

127 F_TOL

Frequency limit

100…2500

1…25

Frequency tolerance

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Unit

R / W

Default

Note

Index

r/w

r/w *

r/w

100

230

R309

4096=10V

1/819

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

r/w

100

r/w

3473

4541

5118

16399

127

r/w

r/w *

R310

r/w *

r/w

504

r/w

°C

kWh

r/w

105

106

107

108

109

110

121

123

124

126

127

r/w

1709

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4. Acyclic parameter table Thyro-Step Controller

Table D: TSC parameters slot 1-8

Controller parameter

Symbol

Name

Data

type

Value range Combo-opt.

W1_TYP

W2_TYP

W3_TYP

W_CTRL

U_TYP

Type value transformer 1

Type value transformer 2

Type value transformer 3

Transformer setting

u16

1...65535

0...65535

Type value U network

1…260

bit coded

1…1500

1…11

ANZ

Number

S01

1st phase

1…32768

0…3

S02

2nd phase

S03

3rd phase

S04

4th phase

S05

5th phase

S06

6th phase

S07

7th phase

S08

8th phase

S09

9th phase

S10

10th phase

Setpoint activation 1

Control start setpoint 1

Control stop setpoint 1

Control start setpoint 2

Control stop setpoint 2

Offset 1

bit0=1 setpoint x6.1 active, bit1=1 setpoint master active

0…4096

0…4095

0…4096

1…16

DAC1_OF

DAC1_FA

Scale end value 1

Output value 1

DAC1_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC2_OF

DAC2_FA

Offset 2

u16

0…4095

0…4096

1…16

Scale end value 2

Output value 2

DAC2_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC3_OF

DAC3_FA

Offset 3

u16

0…4095

0…4096

1…16

Scale end value 3

Output value 3

DAC3_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC4_OF

DAC4_FA

Offset 4

u16

0…4095

0…4096

1…16

Scale end value 4

Output value 4

DAC4_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC5_OF

Offset 5

u16

0…4095

DAC5_FA

Scale end value 5

Output value 5

u16

0…4096

1…16

DAC5_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC6_OF

DAC6_FA

Offset 6

u16

0…4095

0…4096

1…16

Scale end value 6

Output value 6

DAC6_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC_MITTEL

SPG_MIN

SPG_MAX

W1_MAX

Average

u16

f32

1…65535

0…5120

0…8192

0...65535

1…31

Lower limit mains voltage

Upper limit mains voltage

Limit transformer 1

Limit transformer 2

Limit transformer 3

Monitoring mode transformer

Fault output

W2_MAX

W3_MAX

WA_CTRL

bit coded

Alarm output

Vers_D

Vers_M

Vers_Y

Firmware version day

Firmware version month

Firmware version year

Save

1…12

0…9999

0…1

off, save

Operating hours

Limiting value temperature

Energy

0…

TEMP_MAX

u16

f32

0…255

0…

105

106

107

108

109

110

119

121

123

124

Analog output 1

Analog output 2

Analog output 3

Analog output 4

Analog output 5

Analog output 6

DC input 3 (x5.10)

Device number

u16

u32

u16

u32

u16

0…4096

0…

Serial number

0…

PCB number

0…

126 F_MIN_MAX

127 F_TOL

Frequency limit

100…2500

1…25

Frequency tolerance

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Unit

R / W

Default

Note

Index

r/w

100

r/w

100

r/w

100

r/w

230

r/w *

R309

2978

5956

8934

11912

14890

17868

20846

23824

26802

29780

20/4096mA

4096=10V

1/819

r/w

4096

r/w

4096

r/w

819

r/w

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

r/w

100

r/w

3473

4541

5118

16399

127

r/w

r/w *

R310

r/w *

r/w

504

r/w

°C

kWh

r/w

105

106

107

108

109

110

119

121

123

124

126

127

4096=100%

r/w

1709

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5. Acyclic parameter table Thyro-Measurement Unit

Table D: TMU parameters slot 1-8

Controller parameter

Symbol

Name

Data

type

Value range Combo-opt.

W1_TYP

W2_TYP

W3_TYP

W_CTRL

U_TYP

Type value transformer 1

Type value transformer 2

Type value transformer 3

Transformer setting

Type value U network

Measuring and cycle time

Offset 1

u16

1...65535

0...65535

1…260

bit coded

1…15000

0…4095

DAC1_OF

DAC1_FA

Scale end value 1

Output value 1

u16

0…4096

1…16

DAC1_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC2_OF

DAC2_FA

Offset 2

u16

0…4095

0…4096

1…16

Scale end value 2

Output value 2

DAC2_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC3_OF

DAC3_FA

Offset 3

u16

0…4095

0…4096

1…16

Scale end value 3

Output value 3

DAC3_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC4_OF

DAC4_FA

Offset 4

u16

0…4095

0…4096

1…16

Scale end value 4

Output value 4

DAC4_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC5_OF

DAC5_FA

Offset 5

u16

0…4095

0…4096

1…16

Scale end value 5

Output value 5

DAC5_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC6_OF

DAC6_FA

Offset 6

u16

0…4095

0…4096

1…16

Scale end value 6

Output value 6

DAC6_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC_MITTEL

SPG_MIN

SPG_MAX

W1_MAX

Average

u16

f32

1…65535

0…5120

0…8192

0...65535

1…31

Lower limit mains voltage

Upper limit mains voltage

Limit transformer 1

Limit transformer 2

Limit transformer 3

Monitoring mode transformer

Fault output

W2_MAX

W3_MAX

WA_CTRL

bit coded

Alarm output

Vers_D

Vers_M

Vers_Y

Firmware version day

Firmware version month

Firmware version year

Save

1…12

0…9999

0…1

off, save

Operating hours

0…

TEMP_MAX

Limiting value temperature

Energy

u16

f32

0…255

0…

105

106

107

108

109

110

119

Analog output 1

Analog output 2

Analog output 3

Analog output 4

Analog output 5

Analog output 6

DC input 3 (x5.10)

u16

0…4096

121

123

124

Device number

Serial number

u32

u16

u32

u16

0…

PCB number

0…

126 F_MIN_MAX

127 F_TOL

Frequency limit

Frequency tolerance

100…2500

1…25

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Unit

R / W

Default

Note

Index

r/w

r/w *

r/w

100

230

R309

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

r/w

r/w *

r/w

100

3473

4541

5118

16399

127

R310

504

r/w

°C

kWh

r/w

105

106

107

108

109

110

119

4096=100%

121

123

124

126

127

r/w

1709

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6. Acyclic parameter table Thyro Input-Output Unit

Table F: TIO parameters slot 1-8

Controller parameter

Symbol

Name

Data

type

Value range Combo-opt.

W1_TYP

W2_TYP

W3_TYP

W_CTRL

U_TYP

Type value transformer 1

Type value transformer 2

Type value transformer 3

Transformer setting

Type value U mains

Measuring and cycle time

Offset 1

u16

1...65535

0...65535

1…260

bit coded

1…1500

0…4095

DAC1_OF

DAC1_FA

Scale end value 1

Output value 1

u16

0…4096

1…16

DAC1_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC2_OF

DAC2_FA

Offset 2

u16

0…4095

0…4096

1…16

Scale end value 2

Output value 2

DAC2_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC3_OF

DAC3_FA

Offset 3

u16

0…4095

0…4096

1…16

Scale end value 3

Output value 3

DAC3_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC4_OF

DAC4_FA

Offset 4

u16

0…4095

0…4096

1…16

Scale end value 4

Output value 4

DAC4_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC5_OF

DAC5_FA

Offset 5

u16

0…4095

0…4096

1…16

Scale end value 5

Output value 5

DAC5_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC6_OF

DAC6_FA

Offset 6

u16

0…4095

0…4096

1…16

Scale end value 6

Output value 6

DAC6_CTRL

transformer1, transformer2, transformer3, U mains, setpoint1,

setpoint2, R309, R310, temp., res., controller1,…, controller6

DAC_MITTEL

SPG_MIN

SPG_MAX

W1_MAX

Average

u16

f32

1…65535

0…5120

0…8192

0...65535

1…31

Lower limit mains voltage

Upper limit mains voltage

Limit transformer 1

Limit transformer 2

Limit transformer 3

Monitoring mode transformer

Fault output

W2_MAX

W3_MAX

WA_CTRL

bit coded

Alarm output

Vers_D

Vers_M

Vers_Y

Firmware version day

Firmware version month

Firmware version year

Save

1…12

0…9999

0…1

off, save

Operating hours

0…

TEMP_MAX

Limiting value temperature

Energy

u16

f32

0…255

0…

105

106

107

108

109

110

119

Analog output 1

Analog output 2

Analog output 3

Analog output 4

Analog output 5

Analog output 6

DC input 3 (x5.10)

u16

0…4096

121

123

124

Device number

Serial number

u32

u16

u32

u16

0…

PCB number

0…

126 F_MIN_MAX

127 F_TOL

Frequency limit

Frequency tolerance

100…2500

1…25

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Unit

R / W

Default

Note

Index

r/w

r/w *

r/w

100

230

R309

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

4096=10V

1/819

r/w

819

r/w

r/w *

r/w

100

3473

4541

5118

16399

127

R310

504

r/w

°C

kWh

r/w

105

106

107

108

109

110

119

4096=100%

121

123

124

126

127

r/w

1709

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Emil-Siepmann-Str. 32

59581 Warstein-Belecke

Deutschland

Tel.: +49(0)2902 763 -520 / -290

Fax: +49(0)2902 763 -1201

www.aegpowercontrollers.com

www.aegps.com

Betriebsanleitung/Operating Instructions 8000029997 BAL, en 07/10;

printed in Germany, subject to change without notice

AEG is a registered trademark used under license from AB Electrolux

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