TQ ANO100 User manual
ANO100 Analogue Output module
Installation instructions, edition 05/2019 EN
1 Introduction
These installation instructions contain important
information that should be followed when installing the
ANO100 Analogue Output module.
►Read all the instructions carefully before installing and commis-
sioning the ANO100 Analogue Output module to avoid possible
risks and mistakes.
►Keep the installation instructions in a safe place for future refer-
ence.
2 Safety instructions
These instructions contain notes that you must follow for your own
personal safety and to avoid injury and damage to property. They are
highlighted by warning triangles and are shown as follows according
to the level of danger.
2.1 Hazard classication
DANGER
The signal word designates a hazard with a high degree of risk
which, if it is not avoided, will result in death or severe injury.
WARNING
The signal word designates a hazard with a medium degree of risk
which, if it is not avoided, will result in death or severe injury.
CAUTION
The signal word designates a hazard with a low degree of risk which,
if it is not avoided, could result in minor or moderate injury.
NOTE
A note as used in these instructions contains important information
about the product or about a part of the manual to which particular
attention should be paid.
2.2 Notes on installation
WARNING
►Follow ALL danger and warning instructions and notes on
precautionary measures.
►Read section 2 „Safety instructions“ carefully.
2.3 Notes on using the module safely
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Install the TQ-Automation-Module only in approved housings or
distribution boards so that the connections for the outer and neu-
tral conductors are located behind a cover or guard to prevent
accidental contact.
The housing or distribution board must be accessible only with
a key or suitable tool in order to limit access to authorised per-
sonnel.
►Before starting any installation or maintenance work, switch off
the input voltage and secure it to prevent it being switched on
again accidentally.
►Install the ANO100 module only in a dry environment.
►Protect the ANO100 module against moisture and wet condi-
tions.
WARNING
►Install an additional electrical isolating device upstream of every
line of connected TQ-Automation-Module so that every TQ-Auto-
mation-Module in the line can be electrically disconnected.
NOTE
►Always run data and mains cables separately or in separate
conduits. Refer to EN 50174-2.
►Protect the ANO100 module against damage by transient over-
voltages by installing additional overvoltage protection elements
conforming to SPD type 1 (coarse protection) and SPD type 2
(medium protection) upstream of the POW100 mains adapter.
►Make sure that the POW100 mains adapter that powers the
ANO100 can be isolated from the supply, e.g. with a type C2 or
B6 circuit breaker. This must be identied as the isolating device
for the POW100 and must be easily accessible.
►Make sure that the ANO100 module is adequately ventilated.
Make sure that the ventilation slots are not covered to prevent
the ANO100 module from overheating.
►The ANO100 module requires no maintenance.
3 Target group
The activities described in this manual must only be carried out by
technicians with the following qualications:
— Training in the installation and commissioning of electrical
devices
— Training in electrical hazards and the local safety requirements
— Knowledge of the relevant standards and directives
— Knowledge and observance of this document and all the safety
instructions
4 Description
The ANO100 module is a unit for outputting analogue signals for
building automation. It has eight analogue outputs that are divided
into two galvanically isolated groups (see section 7). Each output can
output either voltages from 0 to 10 V DC or currents from 0 to 20 mA.
The ANO100 module is made up of two parts - the backplane and the
electronic module, which is electrically connected to the backplane
via contacts. The backplane latches into place on a DIN rail with two
snap locks. All lines of the interfaces are connected to the backplane
with push-in terminals. The backplane has a mechanical housing
encoding to prevent any confusion between different modules of the
same width. The electronic module is plugged into the backplane.
In the event of a fault, the electronic module can be easily replaced
without having to detach any wiring. The POW100 mains adapter
provides the 24 V supply voltage for the ANO100 module. The supply
voltage is supplied to the ANO100 module via the CAB bus.
5 Intended usage
— The ANO100 module may only be operated when it is installed
on the DIN rail in the distribution board and the protective covers
are attached.
— The ANO100 module is approved only for use in dry interior
areas.
— Only use the ANO100 module as specied in these instructions
provided. Any other usage may result in injury or damage to
property.
— For safety reasons, no changes may be made to the ANO100
module, including the software, unless they are expressly
approved for the product by TQ-Automation.
— The intended usage also includes compliance with all the notes
in these instructions.
NOTE
Any types of usage other than those specied in section 5 „Intend-
ed usage“ are regarded as contrary to the intended usage and will
invalidate the warranty.
6 Scope of delivery
1
B
A
D
C
2
3
Fig. 1: View of the ANO100 Analogue Output module
Item Designation Quantity
1 ANO100 Analogue Output module 1x
2 Backplane 1x
3 Backplane connector* 1x
-20 kΩ resistor 8x
- Installation instructions 1x
* The backplane connector is used to connect adjacent backplanes
of other modules.
7 Technical data
Input data
Supply voltage 24 V DC
Power consumption Max. 7 W
Analogue output, group 1
Analogue output
congured as:
— Voltage output
— Current output
AO0 - AO3
0 to 10 V DC
0 to 20 mA
Analogue output, group 2
Analogue output
congured as:
— Voltage output
— Current output
AO4 - AO7
0 to 10 V DC
0 to 20 mA
Line connections
Connection cross section 0.5 mm2to 1.5 mm2
Housing protection
IP code IP20
Protection class III
Overvoltage category I (EN 61010-1:2010)
Ambient conditions
Ambient temperature
— Operation
— Storage
0 °C to 50 °C
-25 °C to 60 °C
Relative humidity (non condens.) 50 % to 95 %
Air pressure during operation 790 hPa to 1070 hPa
Dimensions/weight
Dimensions (W x H x D) 53 mm x 95 mm x 67 mm,
width equals 3 DIN units
Weight 0.125 kg
Handling
Max. altitude during operation 2000 m above sea level
DIN rail system TS 35 (35 mm x 7.5 mm,
1 mm thick)
8 Wiring diagrams for the connections
Analogue Output Analogue output voltage: 0 ... 10 V DC
Analogue output current: 0 ... 20 mA
11
AO4
BCON ANO100
12
GND
13
AO5
14
GND
16
AO6
17
GND
18
AO7
19
GND
Load Load Load Load
1
AO0
3
AO1
6
AO2
8
AO3
9
GND
7
GND
4
GND
2
GND
Load Load Load Load
Fig. 2: Wiring diagrams for analogue outputs
9 Controls
There are three pushbuttons and a USB port beneath the service ap
(item 5 in Fig. 3) on the ANO100 module.
5
1
2
3
4
Fig. 3: Controls
Item Control Function
1 RESET button Restarts the ANO100 module
2 USB port
(Micro-B)
For software and rmware updates or
manually controlling the module
3 BTN1 button Assigned to a software function
4 BTN2 button Assigned to a software function
© TQ-Systems GmbH 2019 | All data is for information purposes only | Subject to change without notice | | AUT_Installation_DM100-ANO_EN_Rev104
ANO100 Analogue Output module
Installation instructions, edition 05/2019 EN
1 Introduction
These installation instructions contain important
information that should be followed when installing the
ANO100 Analogue Output module.
►Read all the instructions carefully before installing and commis-
sioning the ANO100 Analogue Output module to avoid possible
risks and mistakes.
►Keep the installation instructions in a safe place for future refer-
ence.
2 Safety instructions
These instructions contain notes that you must follow for your own
personal safety and to avoid injury and damage to property. They are
highlighted by warning triangles and are shown as follows according
to the level of danger.
2.1 Hazard classication
DANGER
The signal word designates a hazard with a high degree of risk
which, if it is not avoided, will result in death or severe injury.
WARNING
The signal word designates a hazard with a medium degree of risk
which, if it is not avoided, will result in death or severe injury.
CAUTION
The signal word designates a hazard with a low degree of risk which,
if it is not avoided, could result in minor or moderate injury.
NOTE
A note as used in these instructions contains important information
about the product or about a part of the manual to which particular
attention should be paid.
2.2 Notes on installation
WARNING
►Follow ALL danger and warning instructions and notes on
precautionary measures.
►Read section 2 „Safety instructions“ carefully.
2.3 Notes on using the module safely
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Install the TQ-Automation-Module only in approved housings or
distribution boards so that the connections for the outer and neu-
tral conductors are located behind a cover or guard to prevent
accidental contact.
The housing or distribution board must be accessible only with
a key or suitable tool in order to limit access to authorised per-
sonnel.
►Before starting any installation or maintenance work, switch off
the input voltage and secure it to prevent it being switched on
again accidentally.
►Install the ANO100 module only in a dry environment.
►Protect the ANO100 module against moisture and wet condi-
tions.
WARNING
►Install an additional electrical isolating device upstream of every
line of connected TQ-Automation-Module so that every TQ-Auto-
mation-Module in the line can be electrically disconnected.
NOTE
►Always run data and mains cables separately or in separate
conduits. Refer to EN 50174-2.
►Protect the ANO100 module against damage by transient over-
voltages by installing additional overvoltage protection elements
conforming to SPD type 1 (coarse protection) and SPD type 2
(medium protection) upstream of the POW100 mains adapter.
►Make sure that the POW100 mains adapter that powers the
ANO100 can be isolated from the supply, e.g. with a type C2 or
B6 circuit breaker. This must be identied as the isolating device
for the POW100 and must be easily accessible.
►Make sure that the ANO100 module is adequately ventilated.
Make sure that the ventilation slots are not covered to prevent
the ANO100 module from overheating.
►The ANO100 module requires no maintenance.
3 Target group
The activities described in this manual must only be carried out by
technicians with the following qualications:
— Training in the installation and commissioning of electrical
devices
— Training in electrical hazards and the local safety requirements
— Knowledge of the relevant standards and directives
— Knowledge and observance of this document and all the safety
instructions
4 Description
The ANO100 module is a unit for outputting analogue signals for
building automation. It has eight analogue outputs that are divided
into two galvanically isolated groups (see section 7). Each output can
output either voltages from 0 to 10 V DC or currents from 0 to 20 mA.
The ANO100 module is made up of two parts - the backplane and the
electronic module, which is electrically connected to the backplane
via contacts. The backplane latches into place on a DIN rail with two
snap locks. All lines of the interfaces are connected to the backplane
with push-in terminals. The backplane has a mechanical housing
encoding to prevent any confusion between different modules of the
same width. The electronic module is plugged into the backplane.
In the event of a fault, the electronic module can be easily replaced
without having to detach any wiring. The POW100 mains adapter
provides the 24 V supply voltage for the ANO100 module. The supply
voltage is supplied to the ANO100 module via the CAB bus.
5 Intended usage
— The ANO100 module may only be operated when it is installed
on the DIN rail in the distribution board and the protective covers
are attached.
— The ANO100 module is approved only for use in dry interior
areas.
— Only use the ANO100 module as specied in these instructions
provided. Any other usage may result in injury or damage to
property.
— For safety reasons, no changes may be made to the ANO100
module, including the software, unless they are expressly
approved for the product by TQ-Automation.
— The intended usage also includes compliance with all the notes
in these instructions.
NOTE
Any types of usage other than those specied in section 5 „Intend-
ed usage“ are regarded as contrary to the intended usage and will
invalidate the warranty.
6 Scope of delivery
1
B
A
D
C
2
3
Fig. 1: View of the ANO100 Analogue Output module
Item Designation Quantity
1 ANO100 Analogue Output module 1x
2 Backplane 1x
3 Backplane connector* 1x
-20 kΩ resistor 8x
- Installation instructions 1x
* The backplane connector is used to connect adjacent backplanes
of other modules.
7 Technical data
Input data
Supply voltage 24 V DC
Power consumption Max. 7 W
Analogue output, group 1
Analogue output
congured as:
— Voltage output
— Current output
AO0 - AO3
0 to 10 V DC
0 to 20 mA
Analogue output, group 2
Analogue output
congured as:
— Voltage output
— Current output
AO4 - AO7
0 to 10 V DC
0 to 20 mA
Line connections
Connection cross section 0.5 mm2to 1.5 mm2
Housing protection
IP code IP20
Protection class III
Overvoltage category I (EN 61010-1:2010)
Ambient conditions
Ambient temperature
— Operation
— Storage
0 °C to 50 °C
-25 °C to 60 °C
Relative humidity (non condens.) 50 % to 95 %
Air pressure during operation 790 hPa to 1070 hPa
Dimensions/weight
Dimensions (W x H x D) 53 mm x 95 mm x 67 mm,
width equals 3 DIN units
Weight 0.125 kg
Handling
Max. altitude during operation 2000 m above sea level
DIN rail system TS 35 (35 mm x 7.5 mm,
1 mm thick)
8 Wiring diagrams for the connections
Analogue Output Analogue output voltage: 0 ... 10 V DC
Analogue output current: 0 ... 20 mA
11
AO4
BCON ANO100
12
GND
13
AO5
14
GND
16
AO6
17
GND
18
AO7
19
GND
Load Load Load Load
1
AO0
3
AO1
6
AO2
8
AO3
9
GND
7
GND
4
GND
2
GND
Load Load Load Load
Fig. 2: Wiring diagrams for analogue outputs
9 Controls
There are three pushbuttons and a USB port beneath the service ap
(item 5 in Fig. 3) on the ANO100 module.
5
1
2
3
4
Fig. 3: Controls
Item Control Function
1 RESET button Restarts the ANO100 module
2 USB port
(Micro-B)
For software and rmware updates or
manually controlling the module
3 BTN1 button Assigned to a software function
4 BTN2 button Assigned to a software function
© TQ-Systems GmbH 2019 | All data is for information purposes only | Subject to change without notice | | AUT_Installation_DM100-ANO_EN_Rev104
ANO100 Analogue Output module
Installation instructions, edition 05/2019 EN
1 Introduction
These installation instructions contain important
information that should be followed when installing the
ANO100 Analogue Output module.
►Read all the instructions carefully before installing and commis-
sioning the ANO100 Analogue Output module to avoid possible
risks and mistakes.
►Keep the installation instructions in a safe place for future refer-
ence.
2 Safety instructions
These instructions contain notes that you must follow for your own
personal safety and to avoid injury and damage to property. They are
highlighted by warning triangles and are shown as follows according
to the level of danger.
2.1 Hazard classication
DANGER
The signal word designates a hazard with a high degree of risk
which, if it is not avoided, will result in death or severe injury.
WARNING
The signal word designates a hazard with a medium degree of risk
which, if it is not avoided, will result in death or severe injury.
CAUTION
The signal word designates a hazard with a low degree of risk which,
if it is not avoided, could result in minor or moderate injury.
NOTE
A note as used in these instructions contains important information
about the product or about a part of the manual to which particular
attention should be paid.
2.2 Notes on installation
WARNING
►Follow ALL danger and warning instructions and notes on
precautionary measures.
►Read section 2 „Safety instructions“ carefully.
2.3 Notes on using the module safely
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Install the TQ-Automation-Module only in approved housings or
distribution boards so that the connections for the outer and neu-
tral conductors are located behind a cover or guard to prevent
accidental contact.
The housing or distribution board must be accessible only with
a key or suitable tool in order to limit access to authorised per-
sonnel.
►Before starting any installation or maintenance work, switch off
the input voltage and secure it to prevent it being switched on
again accidentally.
►Install the ANO100 module only in a dry environment.
►Protect the ANO100 module against moisture and wet condi-
tions.
WARNING
►Install an additional electrical isolating device upstream of every
line of connected TQ-Automation-Module so that every TQ-Auto-
mation-Module in the line can be electrically disconnected.
NOTE
►Always run data and mains cables separately or in separate
conduits. Refer to EN 50174-2.
►Protect the ANO100 module against damage by transient over-
voltages by installing additional overvoltage protection elements
conforming to SPD type 1 (coarse protection) and SPD type 2
(medium protection) upstream of the POW100 mains adapter.
►Make sure that the POW100 mains adapter that powers the
ANO100 can be isolated from the supply, e.g. with a type C2 or
B6 circuit breaker. This must be identied as the isolating device
for the POW100 and must be easily accessible.
►Make sure that the ANO100 module is adequately ventilated.
Make sure that the ventilation slots are not covered to prevent
the ANO100 module from overheating.
►The ANO100 module requires no maintenance.
3 Target group
The activities described in this manual must only be carried out by
technicians with the following qualications:
— Training in the installation and commissioning of electrical
devices
— Training in electrical hazards and the local safety requirements
— Knowledge of the relevant standards and directives
— Knowledge and observance of this document and all the safety
instructions
4 Description
The ANO100 module is a unit for outputting analogue signals for
building automation. It has eight analogue outputs that are divided
into two galvanically isolated groups (see section 7). Each output can
output either voltages from 0 to 10 V DC or currents from 0 to 20 mA.
The ANO100 module is made up of two parts - the backplane and the
electronic module, which is electrically connected to the backplane
via contacts. The backplane latches into place on a DIN rail with two
snap locks. All lines of the interfaces are connected to the backplane
with push-in terminals. The backplane has a mechanical housing
encoding to prevent any confusion between different modules of the
same width. The electronic module is plugged into the backplane.
In the event of a fault, the electronic module can be easily replaced
without having to detach any wiring. The POW100 mains adapter
provides the 24 V supply voltage for the ANO100 module. The supply
voltage is supplied to the ANO100 module via the CAB bus.
5 Intended usage
— The ANO100 module may only be operated when it is installed
on the DIN rail in the distribution board and the protective covers
are attached.
— The ANO100 module is approved only for use in dry interior
areas.
— Only use the ANO100 module as specied in these instructions
provided. Any other usage may result in injury or damage to
property.
— For safety reasons, no changes may be made to the ANO100
module, including the software, unless they are expressly
approved for the product by TQ-Automation.
— The intended usage also includes compliance with all the notes
in these instructions.
NOTE
Any types of usage other than those specied in section 5 „Intend-
ed usage“ are regarded as contrary to the intended usage and will
invalidate the warranty.
6 Scope of delivery
1
B
A
D
C
2
3
Fig. 1: View of the ANO100 Analogue Output module
Item Designation Quantity
1 ANO100 Analogue Output module 1x
2 Backplane 1x
3 Backplane connector* 1x
-20 kΩ resistor 8x
- Installation instructions 1x
* The backplane connector is used to connect adjacent backplanes
of other modules.
7 Technical data
Input data
Supply voltage 24 V DC
Power consumption Max. 7 W
Analogue output, group 1
Analogue output
congured as:
— Voltage output
— Current output
AO0 - AO3
0 to 10 V DC
0 to 20 mA
Analogue output, group 2
Analogue output
congured as:
— Voltage output
— Current output
AO4 - AO7
0 to 10 V DC
0 to 20 mA
Line connections
Connection cross section 0.5 mm2to 1.5 mm2
Housing protection
IP code IP20
Protection class III
Overvoltage category I (EN 61010-1:2010)
Ambient conditions
Ambient temperature
— Operation
— Storage
0 °C to 50 °C
-25 °C to 60 °C
Relative humidity (non condens.) 50 % to 95 %
Air pressure during operation 790 hPa to 1070 hPa
Dimensions/weight
Dimensions (W x H x D) 53 mm x 95 mm x 67 mm,
width equals 3 DIN units
Weight 0.125 kg
Handling
Max. altitude during operation 2000 m above sea level
DIN rail system TS 35 (35 mm x 7.5 mm,
1 mm thick)
8 Wiring diagrams for the connections
Analogue Output Analogue output voltage: 0 ... 10 V DC
Analogue output current: 0 ... 20 mA
11
AO4
BCON ANO100
12
GND
13
AO5
14
GND
16
AO6
17
GND
18
AO7
19
GND
Load Load Load Load
1
AO0
3
AO1
6
AO2
8
AO3
9
GND
7
GND
4
GND
2
GND
Load Load Load Load
Fig. 2: Wiring diagrams for analogue outputs
9 Controls
There are three pushbuttons and a USB port beneath the service ap
(item 5 in Fig. 3) on the ANO100 module.
5
1
2
3
4
Fig. 3: Controls
Item Control Function
1 RESET button Restarts the ANO100 module
2 USB port
(Micro-B)
For software and rmware updates or
manually controlling the module
3 BTN1 button Assigned to a software function
4 BTN2 button Assigned to a software function
© TQ-Systems GmbH 2019 | All data is for information purposes only | Subject to change without notice | | AUT_Installation_DM100-ANO_EN_Rev104
ANO100 Analogue Output module
Installation instructions, edition 05/2019 EN
1 Introduction
These installation instructions contain important
information that should be followed when installing the
ANO100 Analogue Output module.
►Read all the instructions carefully before installing and commis-
sioning the ANO100 Analogue Output module to avoid possible
risks and mistakes.
►Keep the installation instructions in a safe place for future refer-
ence.
2 Safety instructions
These instructions contain notes that you must follow for your own
personal safety and to avoid injury and damage to property. They are
highlighted by warning triangles and are shown as follows according
to the level of danger.
2.1 Hazard classication
DANGER
The signal word designates a hazard with a high degree of risk
which, if it is not avoided, will result in death or severe injury.
WARNING
The signal word designates a hazard with a medium degree of risk
which, if it is not avoided, will result in death or severe injury.
CAUTION
The signal word designates a hazard with a low degree of risk which,
if it is not avoided, could result in minor or moderate injury.
NOTE
A note as used in these instructions contains important information
about the product or about a part of the manual to which particular
attention should be paid.
2.2 Notes on installation
WARNING
►Follow ALL danger and warning instructions and notes on
precautionary measures.
►Read section 2 „Safety instructions“ carefully.
2.3 Notes on using the module safely
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Install the TQ-Automation-Module only in approved housings or
distribution boards so that the connections for the outer and neu-
tral conductors are located behind a cover or guard to prevent
accidental contact.
The housing or distribution board must be accessible only with
a key or suitable tool in order to limit access to authorised per-
sonnel.
►Before starting any installation or maintenance work, switch off
the input voltage and secure it to prevent it being switched on
again accidentally.
►Install the ANO100 module only in a dry environment.
►Protect the ANO100 module against moisture and wet condi-
tions.
WARNING
►Install an additional electrical isolating device upstream of every
line of connected TQ-Automation-Module so that every TQ-Auto-
mation-Module in the line can be electrically disconnected.
NOTE
►Always run data and mains cables separately or in separate
conduits. Refer to EN 50174-2.
►Protect the ANO100 module against damage by transient over-
voltages by installing additional overvoltage protection elements
conforming to SPD type 1 (coarse protection) and SPD type 2
(medium protection) upstream of the POW100 mains adapter.
►Make sure that the POW100 mains adapter that powers the
ANO100 can be isolated from the supply, e.g. with a type C2 or
B6 circuit breaker. This must be identied as the isolating device
for the POW100 and must be easily accessible.
►Make sure that the ANO100 module is adequately ventilated.
Make sure that the ventilation slots are not covered to prevent
the ANO100 module from overheating.
►The ANO100 module requires no maintenance.
3 Target group
The activities described in this manual must only be carried out by
technicians with the following qualications:
— Training in the installation and commissioning of electrical
devices
— Training in electrical hazards and the local safety requirements
— Knowledge of the relevant standards and directives
— Knowledge and observance of this document and all the safety
instructions
4 Description
The ANO100 module is a unit for outputting analogue signals for
building automation. It has eight analogue outputs that are divided
into two galvanically isolated groups (see section 7). Each output can
output either voltages from 0 to 10 V DC or currents from 0 to 20 mA.
The ANO100 module is made up of two parts - the backplane and the
electronic module, which is electrically connected to the backplane
via contacts. The backplane latches into place on a DIN rail with two
snap locks. All lines of the interfaces are connected to the backplane
with push-in terminals. The backplane has a mechanical housing
encoding to prevent any confusion between different modules of the
same width. The electronic module is plugged into the backplane.
In the event of a fault, the electronic module can be easily replaced
without having to detach any wiring. The POW100 mains adapter
provides the 24 V supply voltage for the ANO100 module. The supply
voltage is supplied to the ANO100 module via the CAB bus.
5 Intended usage
— The ANO100 module may only be operated when it is installed
on the DIN rail in the distribution board and the protective covers
are attached.
— The ANO100 module is approved only for use in dry interior
areas.
— Only use the ANO100 module as specied in these instructions
provided. Any other usage may result in injury or damage to
property.
— For safety reasons, no changes may be made to the ANO100
module, including the software, unless they are expressly
approved for the product by TQ-Automation.
— The intended usage also includes compliance with all the notes
in these instructions.
NOTE
Any types of usage other than those specied in section 5 „Intend-
ed usage“ are regarded as contrary to the intended usage and will
invalidate the warranty.
6 Scope of delivery
1
B
A
D
C
2
3
Fig. 1: View of the ANO100 Analogue Output module
Item Designation Quantity
1 ANO100 Analogue Output module 1x
2 Backplane 1x
3 Backplane connector* 1x
-20 kΩ resistor 8x
- Installation instructions 1x
* The backplane connector is used to connect adjacent backplanes
of other modules.
7 Technical data
Input data
Supply voltage 24 V DC
Power consumption Max. 7 W
Analogue output, group 1
Analogue output
congured as:
— Voltage output
— Current output
AO0 - AO3
0 to 10 V DC
0 to 20 mA
Analogue output, group 2
Analogue output
congured as:
— Voltage output
— Current output
AO4 - AO7
0 to 10 V DC
0 to 20 mA
Line connections
Connection cross section 0.5 mm2to 1.5 mm2
Housing protection
IP code IP20
Protection class III
Overvoltage category I (EN 61010-1:2010)
Ambient conditions
Ambient temperature
— Operation
— Storage
0 °C to 50 °C
-25 °C to 60 °C
Relative humidity (non condens.) 50 % to 95 %
Air pressure during operation 790 hPa to 1070 hPa
Dimensions/weight
Dimensions (W x H x D) 53 mm x 95 mm x 67 mm,
width equals 3 DIN units
Weight 0.125 kg
Handling
Max. altitude during operation 2000 m above sea level
DIN rail system TS 35 (35 mm x 7.5 mm,
1 mm thick)
8 Wiring diagrams for the connections
Analogue Output Analogue output voltage: 0 ... 10 V DC
Analogue output current: 0 ... 20 mA
11
AO4
BCON ANO100
12
GND
13
AO5
14
GND
16
AO6
17
GND
18
AO7
19
GND
Load Load Load Load
1
AO0
3
AO1
6
AO2
8
AO3
9
GND
7
GND
4
GND
2
GND
Load Load Load Load
Fig. 2: Wiring diagrams for analogue outputs
9 Controls
There are three pushbuttons and a USB port beneath the service ap
(item 5 in Fig. 3) on the ANO100 module.
5
1
2
3
4
Fig. 3: Controls
Item Control Function
1 RESET button Restarts the ANO100 module
2 USB port
(Micro-B)
For software and rmware updates or
manually controlling the module
3 BTN1 button Assigned to a software function
4 BTN2 button Assigned to a software function
© TQ-Systems GmbH 2019 | All data is for information purposes only | Subject to change without notice | | AUT_Installation_DM100-ANO_EN_Rev104
10 LED status displays
All the status LEDs are arranged on the front panel of the ANO100
module. There is an overview of the LED status displays in Table 1
and Table 2.
11 Installation
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Disconnect the connection points from the power supply.
►Secure the fuses to prevent switching on again.
►Make sure that the conductors to be connected are voltage-free.
11.1 Tools and equipment
— Screwdriver, insulated, size 1, max. blade width 3 mm
— Voltmeter
11.2 Install the backplane
A
B
1
2
3
4
Fig. 4: Place the backplane on the DIN rail
►Arrange the backplane (item 1 in Fig. 4) so that the tab (item 2 in
Fig. 4) is underneath.
►Holding the backplane at an angle, engage it from above (item A
in Fig. 4) in the top edge of the DIN rail (item 4 in Fig. 4).
►Carefully press the backplane (item 1 in Fig. 4) against the
DIN rail (item 4 in Fig. 4) until it snaps into place (item B in
Fig. 4).
NOTE
— There must be no backplane connector (item 3 in Fig. 4) inserted
on the last module of a row of DIN rails or on the last module of
the entire installation.
— To detach the backplane from the DIN rail, press the tab (item 2
in Fig. 4) down lightly and swivel the backplane up.
11.3 Wire the backplane
► Wire the backplane as described in the installation specications.
The openings for the push-in terminals (item 1 in Fig. 5) are at
the top and bottom of the backplane. The labels on the back-
plane show the terminal assignments.
► Strip the insulation from the end of the hook-up wire:
— Rigid wire 0.5 to 1.5 mm2, stripped length 10 mm
— Strand 0.5 to 1.5 mm2, ferrule, length 10 mm
NOTE
►Note the length of the ferrule (10 mm).
1
2
Fig. 5: Wire the backplane
►Insert the rigid wire or ferrule into the round opening of the push-
in terminal (item 1 in Fig. 5) as far as it will go.
NOTE
For small hook-up wire cross-sections:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and insert
the hook-up wire into the round opening as far as it will go.
► Pull on the hook-up wire to make sure that it is seated rmly in
the push-in terminal.
NOTE
To release the hook-up wire from the terminal:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and pull the
hook-up wire out.
11.4 Install the electronic module
► Remove the protective lm from the backplane.
►Insert the pivot axes (item 4 in Fig. 6) of the electronic module
(item 1 in Fig. 6) into the hooks (item 3 in Fig. 6) of the back-
plane (item 2 in Fig. 6).
►Tilt the electronic module down and press it carefully against the
backplane until it latches into place.
1
2
3
4
Fig. 6: Install the electronic module
11.5 Start up the ANO100 module
NOTE
►Carry out an insulation measurement before starting up.
►Switch on the POW100 mains adapter. The L LED on the
POW100 module and the RUN LED on the POW100 and
ANO100 modules light up green.
►Check the LED statuses according to Table 1 and Table 2.
11.6 Uninstalling the electronic module
To uninstall the electronic module from the backplane:
►Insert the screwdriver into the two gaps (item 1 in Fig. 7) on the
underside of the electronic module one after the other in order to
detach the module from its xing.
►Tilt the electronic module upwards and lift it away from the back-
plane.
1
1
Fig. 7: Uninstalling the electronic module
NOTE
►Once you have removed the module from the backplane,
reattach the protective lm to the backplane. This will protect the
contacts against soiling by dust on site, for example.
12 Environmentally-friendly disposal
The ANO100 module must not be disposed of in the residual
waste bin.
►Dispose of the ANO100 module in accordance with the electronic
waste disposal regulations that apply on site.
13 Fault nding
— The RUN LED does not light up: fault in the electronic module.
Contact Customer Service.
— The RUN LED ashes red: a fault has occurred.
Contact Customer Service.
— The RUN LED lights up red: the module is in the bootloader state
or a software update is in progress.
14 Software licence
This product also contains open source software that was developed
by third parties. You will nd the licence texts and associated notes
on our home page www.tq-automation.com.
15 Contact
If you have technical problems with the product, contact TQ-Automa-
tion Customer Service. We will need the following information to be
able to give you specic help:
— Serial number of the ANO100 module
— Description of the fault
TQ-Systems GmbH Phone: +49 (0) 8153 9308-699
Mühlstr. 2, Gut Delling Internet: www.tq-automation.com
Germany
Function Labelling LED
position
LED
colour
Status if LED is off Status if LED is on Status if LED is ashing
Module
status
RUN Item A in
Fig. 1
red/
green
The module is
switched off or the
status is not OK
if the module is
switched on
– red: the module is switched on, but
the processor is not responding
or the module is in the boot-
loader state
– green: the module is
ready-to-operate
– red (< 150/150 ms interval):
software exception
– red alternating with the CAB
bus status LED:
CAB bootloader active
– green (750/250 m interval):
module status OK
CAB bus
status
BUS Item B in
Fig. 1
red/
yellow/
green
CAB bus inactive – red: baud rate synchronisation is
active
– green: CAB bus is ready-to-operate
– red (500 ms interval):
bus in scan mode
– red (1 s interval):
bus in position detection mode
– red alternating with the
module status LED:
module in the bootloader state
– yellow (250 ms interval):
bus in PREOP mode
– yellow (1 s interval):
bus in SAFEOP mode
Bus termi-
nation
TERM Item C in
Fig. 1
yellow Termination is
inactive
Termination is active -
I/O error ERR Item D in
Fig. 1
red Module is switched
off or is working
normally
An I/O error has occurred (e.g. over-
load)
-
Table 1: LED status displays for module functions
Interface Labelling LED
pos.
LED
colour
Status if LED is off Status if LED is on
10 V / 20 mA AO
(group 1)
AO0 to
AO3
1, 3,
6, 8
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
10 V / 20 mA AO
(group 2)
AO4 to
AO7
11, 13,
16, 18
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
Table 2: LED status displays for interfaces
10 LED status displays
All the status LEDs are arranged on the front panel of the ANO100
module. There is an overview of the LED status displays in Table 1
and Table 2.
11 Installation
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Disconnect the connection points from the power supply.
►Secure the fuses to prevent switching on again.
►Make sure that the conductors to be connected are voltage-free.
11.1 Tools and equipment
— Screwdriver, insulated, size 1, max. blade width 3 mm
— Voltmeter
11.2 Install the backplane
A
B
1
2
3
4
Fig. 4: Place the backplane on the DIN rail
►Arrange the backplane (item 1 in Fig. 4) so that the tab (item 2 in
Fig. 4) is underneath.
►Holding the backplane at an angle, engage it from above (item A
in Fig. 4) in the top edge of the DIN rail (item 4 in Fig. 4).
►Carefully press the backplane (item 1 in Fig. 4) against the
DIN rail (item 4 in Fig. 4) until it snaps into place (item B in
Fig. 4).
NOTE
— There must be no backplane connector (item 3 in Fig. 4) inserted
on the last module of a row of DIN rails or on the last module of
the entire installation.
— To detach the backplane from the DIN rail, press the tab (item 2
in Fig. 4) down lightly and swivel the backplane up.
11.3 Wire the backplane
► Wire the backplane as described in the installation specications.
The openings for the push-in terminals (item 1 in Fig. 5) are at
the top and bottom of the backplane. The labels on the back-
plane show the terminal assignments.
► Strip the insulation from the end of the hook-up wire:
— Rigid wire 0.5 to 1.5 mm2, stripped length 10 mm
— Strand 0.5 to 1.5 mm2, ferrule, length 10 mm
NOTE
►Note the length of the ferrule (10 mm).
1
2
Fig. 5: Wire the backplane
►Insert the rigid wire or ferrule into the round opening of the push-
in terminal (item 1 in Fig. 5) as far as it will go.
NOTE
For small hook-up wire cross-sections:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and insert
the hook-up wire into the round opening as far as it will go.
► Pull on the hook-up wire to make sure that it is seated rmly in
the push-in terminal.
NOTE
To release the hook-up wire from the terminal:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and pull the
hook-up wire out.
11.4 Install the electronic module
► Remove the protective lm from the backplane.
►Insert the pivot axes (item 4 in Fig. 6) of the electronic module
(item 1 in Fig. 6) into the hooks (item 3 in Fig. 6) of the back-
plane (item 2 in Fig. 6).
►Tilt the electronic module down and press it carefully against the
backplane until it latches into place.
1
2
3
4
Fig. 6: Install the electronic module
11.5 Start up the ANO100 module
NOTE
►Carry out an insulation measurement before starting up.
►Switch on the POW100 mains adapter. The L LED on the
POW100 module and the RUN LED on the POW100 and
ANO100 modules light up green.
►Check the LED statuses according to Table 1 and Table 2.
11.6 Uninstalling the electronic module
To uninstall the electronic module from the backplane:
►Insert the screwdriver into the two gaps (item 1 in Fig. 7) on the
underside of the electronic module one after the other in order to
detach the module from its xing.
►Tilt the electronic module upwards and lift it away from the back-
plane.
1
1
Fig. 7: Uninstalling the electronic module
NOTE
►Once you have removed the module from the backplane,
reattach the protective lm to the backplane. This will protect the
contacts against soiling by dust on site, for example.
12 Environmentally-friendly disposal
The ANO100 module must not be disposed of in the residual
waste bin.
►Dispose of the ANO100 module in accordance with the electronic
waste disposal regulations that apply on site.
13 Fault nding
— The RUN LED does not light up: fault in the electronic module.
Contact Customer Service.
— The RUN LED ashes red: a fault has occurred.
Contact Customer Service.
— The RUN LED lights up red: the module is in the bootloader state
or a software update is in progress.
14 Software licence
This product also contains open source software that was developed
by third parties. You will nd the licence texts and associated notes
on our home page www.tq-automation.com.
15 Contact
If you have technical problems with the product, contact TQ-Automa-
tion Customer Service. We will need the following information to be
able to give you specic help:
— Serial number of the ANO100 module
— Description of the fault
TQ-Systems GmbH Phone: +49 (0) 8153 9308-699
Mühlstr. 2, Gut Delling Internet: www.tq-automation.com
Germany
Function Labelling LED
position
LED
colour
Status if LED is off Status if LED is on Status if LED is ashing
Module
status
RUN Item A in
Fig. 1
red/
green
The module is
switched off or the
status is not OK
if the module is
switched on
– red: the module is switched on, but
the processor is not responding
or the module is in the boot-
loader state
– green: the module is
ready-to-operate
– red (< 150/150 ms interval):
software exception
– red alternating with the CAB
bus status LED:
CAB bootloader active
– green (750/250 m interval):
module status OK
CAB bus
status
BUS Item B in
Fig. 1
red/
yellow/
green
CAB bus inactive – red: baud rate synchronisation is
active
– green: CAB bus is ready-to-operate
– red (500 ms interval):
bus in scan mode
– red (1 s interval):
bus in position detection mode
– red alternating with the
module status LED:
module in the bootloader state
– yellow (250 ms interval):
bus in PREOP mode
– yellow (1 s interval):
bus in SAFEOP mode
Bus termi-
nation
TERM Item C in
Fig. 1
yellow Termination is
inactive
Termination is active -
I/O error ERR Item D in
Fig. 1
red Module is switched
off or is working
normally
An I/O error has occurred (e.g. over-
load)
-
Table 1: LED status displays for module functions
Interface Labelling LED
pos.
LED
colour
Status if LED is off Status if LED is on
10 V / 20 mA AO
(group 1)
AO0 to
AO3
1, 3,
6, 8
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
10 V / 20 mA AO
(group 2)
AO4 to
AO7
11, 13,
16, 18
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
Table 2: LED status displays for interfaces
10 LED status displays
All the status LEDs are arranged on the front panel of the ANO100
module. There is an overview of the LED status displays in Table 1
and Table 2.
11 Installation
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Disconnect the connection points from the power supply.
►Secure the fuses to prevent switching on again.
►Make sure that the conductors to be connected are voltage-free.
11.1 Tools and equipment
— Screwdriver, insulated, size 1, max. blade width 3 mm
— Voltmeter
11.2 Install the backplane
A
B
1
2
3
4
Fig. 4: Place the backplane on the DIN rail
►Arrange the backplane (item 1 in Fig. 4) so that the tab (item 2 in
Fig. 4) is underneath.
►Holding the backplane at an angle, engage it from above (item A
in Fig. 4) in the top edge of the DIN rail (item 4 in Fig. 4).
►Carefully press the backplane (item 1 in Fig. 4) against the
DIN rail (item 4 in Fig. 4) until it snaps into place (item B in
Fig. 4).
NOTE
— There must be no backplane connector (item 3 in Fig. 4) inserted
on the last module of a row of DIN rails or on the last module of
the entire installation.
— To detach the backplane from the DIN rail, press the tab (item 2
in Fig. 4) down lightly and swivel the backplane up.
11.3 Wire the backplane
► Wire the backplane as described in the installation specications.
The openings for the push-in terminals (item 1 in Fig. 5) are at
the top and bottom of the backplane. The labels on the back-
plane show the terminal assignments.
► Strip the insulation from the end of the hook-up wire:
— Rigid wire 0.5 to 1.5 mm2, stripped length 10 mm
— Strand 0.5 to 1.5 mm2, ferrule, length 10 mm
NOTE
►Note the length of the ferrule (10 mm).
1
2
Fig. 5: Wire the backplane
►Insert the rigid wire or ferrule into the round opening of the push-
in terminal (item 1 in Fig. 5) as far as it will go.
NOTE
For small hook-up wire cross-sections:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and insert
the hook-up wire into the round opening as far as it will go.
► Pull on the hook-up wire to make sure that it is seated rmly in
the push-in terminal.
NOTE
To release the hook-up wire from the terminal:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and pull the
hook-up wire out.
11.4 Install the electronic module
► Remove the protective lm from the backplane.
►Insert the pivot axes (item 4 in Fig. 6) of the electronic module
(item 1 in Fig. 6) into the hooks (item 3 in Fig. 6) of the back-
plane (item 2 in Fig. 6).
►Tilt the electronic module down and press it carefully against the
backplane until it latches into place.
1
2
3
4
Fig. 6: Install the electronic module
11.5 Start up the ANO100 module
NOTE
►Carry out an insulation measurement before starting up.
►Switch on the POW100 mains adapter. The L LED on the
POW100 module and the RUN LED on the POW100 and
ANO100 modules light up green.
►Check the LED statuses according to Table 1 and Table 2.
11.6 Uninstalling the electronic module
To uninstall the electronic module from the backplane:
►Insert the screwdriver into the two gaps (item 1 in Fig. 7) on the
underside of the electronic module one after the other in order to
detach the module from its xing.
►Tilt the electronic module upwards and lift it away from the back-
plane.
1
1
Fig. 7: Uninstalling the electronic module
NOTE
►Once you have removed the module from the backplane,
reattach the protective lm to the backplane. This will protect the
contacts against soiling by dust on site, for example.
12 Environmentally-friendly disposal
The ANO100 module must not be disposed of in the residual
waste bin.
►Dispose of the ANO100 module in accordance with the electronic
waste disposal regulations that apply on site.
13 Fault nding
— The RUN LED does not light up: fault in the electronic module.
Contact Customer Service.
— The RUN LED ashes red: a fault has occurred.
Contact Customer Service.
— The RUN LED lights up red: the module is in the bootloader state
or a software update is in progress.
14 Software licence
This product also contains open source software that was developed
by third parties. You will nd the licence texts and associated notes
on our home page www.tq-automation.com.
15 Contact
If you have technical problems with the product, contact TQ-Automa-
tion Customer Service. We will need the following information to be
able to give you specic help:
— Serial number of the ANO100 module
— Description of the fault
TQ-Systems GmbH Phone: +49 (0) 8153 9308-699
Mühlstr. 2, Gut Delling Internet: www.tq-automation.com
Germany
Function Labelling LED
position
LED
colour
Status if LED is off Status if LED is on Status if LED is ashing
Module
status
RUN Item A in
Fig. 1
red/
green
The module is
switched off or the
status is not OK
if the module is
switched on
– red: the module is switched on, but
the processor is not responding
or the module is in the boot-
loader state
– green: the module is
ready-to-operate
– red (< 150/150 ms interval):
software exception
– red alternating with the CAB
bus status LED:
CAB bootloader active
– green (750/250 m interval):
module status OK
CAB bus
status
BUS Item B in
Fig. 1
red/
yellow/
green
CAB bus inactive – red: baud rate synchronisation is
active
– green: CAB bus is ready-to-operate
– red (500 ms interval):
bus in scan mode
– red (1 s interval):
bus in position detection mode
– red alternating with the
module status LED:
module in the bootloader state
– yellow (250 ms interval):
bus in PREOP mode
– yellow (1 s interval):
bus in SAFEOP mode
Bus termi-
nation
TERM Item C in
Fig. 1
yellow Termination is
inactive
Termination is active -
I/O error ERR Item D in
Fig. 1
red Module is switched
off or is working
normally
An I/O error has occurred (e.g. over-
load)
-
Table 1: LED status displays for module functions
Interface Labelling LED
pos.
LED
colour
Status if LED is off Status if LED is on
10 V / 20 mA AO
(group 1)
AO0 to
AO3
1, 3,
6, 8
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
10 V / 20 mA AO
(group 2)
AO4 to
AO7
11, 13,
16, 18
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
Table 2: LED status displays for interfaces
10 LED status displays
All the status LEDs are arranged on the front panel of the ANO100
module. There is an overview of the LED status displays in Table 1
and Table 2.
11 Installation
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Disconnect the connection points from the power supply.
►Secure the fuses to prevent switching on again.
►Make sure that the conductors to be connected are voltage-free.
11.1 Tools and equipment
— Screwdriver, insulated, size 1, max. blade width 3 mm
— Voltmeter
11.2 Install the backplane
A
B
1
2
3
4
Fig. 4: Place the backplane on the DIN rail
►Arrange the backplane (item 1 in Fig. 4) so that the tab (item 2 in
Fig. 4) is underneath.
►Holding the backplane at an angle, engage it from above (item A
in Fig. 4) in the top edge of the DIN rail (item 4 in Fig. 4).
►Carefully press the backplane (item 1 in Fig. 4) against the
DIN rail (item 4 in Fig. 4) until it snaps into place (item B in
Fig. 4).
NOTE
— There must be no backplane connector (item 3 in Fig. 4) inserted
on the last module of a row of DIN rails or on the last module of
the entire installation.
— To detach the backplane from the DIN rail, press the tab (item 2
in Fig. 4) down lightly and swivel the backplane up.
11.3 Wire the backplane
► Wire the backplane as described in the installation specications.
The openings for the push-in terminals (item 1 in Fig. 5) are at
the top and bottom of the backplane. The labels on the back-
plane show the terminal assignments.
► Strip the insulation from the end of the hook-up wire:
— Rigid wire 0.5 to 1.5 mm2, stripped length 10 mm
— Strand 0.5 to 1.5 mm2, ferrule, length 10 mm
NOTE
►Note the length of the ferrule (10 mm).
1
2
Fig. 5: Wire the backplane
►Insert the rigid wire or ferrule into the round opening of the push-
in terminal (item 1 in Fig. 5) as far as it will go.
NOTE
For small hook-up wire cross-sections:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and insert
the hook-up wire into the round opening as far as it will go.
► Pull on the hook-up wire to make sure that it is seated rmly in
the push-in terminal.
NOTE
To release the hook-up wire from the terminal:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and pull the
hook-up wire out.
11.4 Install the electronic module
► Remove the protective lm from the backplane.
►Insert the pivot axes (item 4 in Fig. 6) of the electronic module
(item 1 in Fig. 6) into the hooks (item 3 in Fig. 6) of the back-
plane (item 2 in Fig. 6).
►Tilt the electronic module down and press it carefully against the
backplane until it latches into place.
1
2
3
4
Fig. 6: Install the electronic module
11.5 Start up the ANO100 module
NOTE
►Carry out an insulation measurement before starting up.
►Switch on the POW100 mains adapter. The L LED on the
POW100 module and the RUN LED on the POW100 and
ANO100 modules light up green.
►Check the LED statuses according to Table 1 and Table 2.
11.6 Uninstalling the electronic module
To uninstall the electronic module from the backplane:
►Insert the screwdriver into the two gaps (item 1 in Fig. 7) on the
underside of the electronic module one after the other in order to
detach the module from its xing.
►Tilt the electronic module upwards and lift it away from the back-
plane.
1
1
Fig. 7: Uninstalling the electronic module
NOTE
►Once you have removed the module from the backplane,
reattach the protective lm to the backplane. This will protect the
contacts against soiling by dust on site, for example.
12 Environmentally-friendly disposal
The ANO100 module must not be disposed of in the residual
waste bin.
►Dispose of the ANO100 module in accordance with the electronic
waste disposal regulations that apply on site.
13 Fault nding
— The RUN LED does not light up: fault in the electronic module.
Contact Customer Service.
— The RUN LED ashes red: a fault has occurred.
Contact Customer Service.
— The RUN LED lights up red: the module is in the bootloader state
or a software update is in progress.
14 Software licence
This product also contains open source software that was developed
by third parties. You will nd the licence texts and associated notes
on our home page www.tq-automation.com.
15 Contact
If you have technical problems with the product, contact TQ-Automa-
tion Customer Service. We will need the following information to be
able to give you specic help:
— Serial number of the ANO100 module
— Description of the fault
TQ-Systems GmbH Phone: +49 (0) 8153 9308-699
Mühlstr. 2, Gut Delling Internet: www.tq-automation.com
Germany
Function Labelling LED
position
LED
colour
Status if LED is off Status if LED is on Status if LED is ashing
Module
status
RUN Item A in
Fig. 1
red/
green
The module is
switched off or the
status is not OK
if the module is
switched on
– red: the module is switched on, but
the processor is not responding
or the module is in the boot-
loader state
– green: the module is
ready-to-operate
– red (< 150/150 ms interval):
software exception
– red alternating with the CAB
bus status LED:
CAB bootloader active
– green (750/250 m interval):
module status OK
CAB bus
status
BUS Item B in
Fig. 1
red/
yellow/
green
CAB bus inactive – red: baud rate synchronisation is
active
– green: CAB bus is ready-to-operate
– red (500 ms interval):
bus in scan mode
– red (1 s interval):
bus in position detection mode
– red alternating with the
module status LED:
module in the bootloader state
– yellow (250 ms interval):
bus in PREOP mode
– yellow (1 s interval):
bus in SAFEOP mode
Bus termi-
nation
TERM Item C in
Fig. 1
yellow Termination is
inactive
Termination is active -
I/O error ERR Item D in
Fig. 1
red Module is switched
off or is working
normally
An I/O error has occurred (e.g. over-
load)
-
Table 1: LED status displays for module functions
Interface Labelling LED
pos.
LED
colour
Status if LED is off Status if LED is on
10 V / 20 mA AO
(group 1)
AO0 to
AO3
1, 3,
6, 8
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
10 V / 20 mA AO
(group 2)
AO4 to
AO7
11, 13,
16, 18
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
Table 2: LED status displays for interfaces
10 LED status displays
All the status LEDs are arranged on the front panel of the ANO100
module. There is an overview of the LED status displays in Table 1
and Table 2.
11 Installation
DANGER
Danger of death by electric shock.
Only safety extra low voltages (SELV) may be connected to the
ANO100 module. Components of other TQ-Automation-Module on
the same DIN rail do carry potentially fatal voltages, however.
►Disconnect the connection points from the power supply.
►Secure the fuses to prevent switching on again.
►Make sure that the conductors to be connected are voltage-free.
11.1 Tools and equipment
— Screwdriver, insulated, size 1, max. blade width 3 mm
— Voltmeter
11.2 Install the backplane
A
B
1
2
3
4
Fig. 4: Place the backplane on the DIN rail
►Arrange the backplane (item 1 in Fig. 4) so that the tab (item 2 in
Fig. 4) is underneath.
►Holding the backplane at an angle, engage it from above (item A
in Fig. 4) in the top edge of the DIN rail (item 4 in Fig. 4).
►Carefully press the backplane (item 1 in Fig. 4) against the
DIN rail (item 4 in Fig. 4) until it snaps into place (item B in
Fig. 4).
NOTE
— There must be no backplane connector (item 3 in Fig. 4) inserted
on the last module of a row of DIN rails or on the last module of
the entire installation.
— To detach the backplane from the DIN rail, press the tab (item 2
in Fig. 4) down lightly and swivel the backplane up.
11.3 Wire the backplane
► Wire the backplane as described in the installation specications.
The openings for the push-in terminals (item 1 in Fig. 5) are at
the top and bottom of the backplane. The labels on the back-
plane show the terminal assignments.
► Strip the insulation from the end of the hook-up wire:
— Rigid wire 0.5 to 1.5 mm2, stripped length 10 mm
— Strand 0.5 to 1.5 mm2, ferrule, length 10 mm
NOTE
►Note the length of the ferrule (10 mm).
1
2
Fig. 5: Wire the backplane
►Insert the rigid wire or ferrule into the round opening of the push-
in terminal (item 1 in Fig. 5) as far as it will go.
NOTE
For small hook-up wire cross-sections:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and insert
the hook-up wire into the round opening as far as it will go.
► Pull on the hook-up wire to make sure that it is seated rmly in
the push-in terminal.
NOTE
To release the hook-up wire from the terminal:
►Insert the screwdriver from the front into the square opening
(item 2 in Fig. 5) at a 45° angle.
►Press the screwdriver lightly against the terminal and pull the
hook-up wire out.
11.4 Install the electronic module
► Remove the protective lm from the backplane.
►Insert the pivot axes (item 4 in Fig. 6) of the electronic module
(item 1 in Fig. 6) into the hooks (item 3 in Fig. 6) of the back-
plane (item 2 in Fig. 6).
►Tilt the electronic module down and press it carefully against the
backplane until it latches into place.
1
2
3
4
Fig. 6: Install the electronic module
11.5 Start up the ANO100 module
NOTE
►Carry out an insulation measurement before starting up.
►Switch on the POW100 mains adapter. The L LED on the
POW100 module and the RUN LED on the POW100 and
ANO100 modules light up green.
►Check the LED statuses according to Table 1 and Table 2.
11.6 Uninstalling the electronic module
To uninstall the electronic module from the backplane:
►Insert the screwdriver into the two gaps (item 1 in Fig. 7) on the
underside of the electronic module one after the other in order to
detach the module from its xing.
►Tilt the electronic module upwards and lift it away from the back-
plane.
1
1
Fig. 7: Uninstalling the electronic module
NOTE
►Once you have removed the module from the backplane,
reattach the protective lm to the backplane. This will protect the
contacts against soiling by dust on site, for example.
12 Environmentally-friendly disposal
The ANO100 module must not be disposed of in the residual
waste bin.
►Dispose of the ANO100 module in accordance with the electronic
waste disposal regulations that apply on site.
13 Fault nding
— The RUN LED does not light up: fault in the electronic module.
Contact Customer Service.
— The RUN LED ashes red: a fault has occurred.
Contact Customer Service.
— The RUN LED lights up red: the module is in the bootloader state
or a software update is in progress.
14 Software licence
This product also contains open source software that was developed
by third parties. You will nd the licence texts and associated notes
on our home page www.tq-automation.com.
15 Contact
If you have technical problems with the product, contact TQ-Automa-
tion Customer Service. We will need the following information to be
able to give you specic help:
— Serial number of the ANO100 module
— Description of the fault
TQ-Systems GmbH Phone: +49 (0) 8153 9308-699
Mühlstr. 2, Gut Delling Internet: www.tq-automation.com
Germany
Function Labelling LED
position
LED
colour
Status if LED is off Status if LED is on Status if LED is ashing
Module
status
RUN Item A in
Fig. 1
red/
green
The module is
switched off or the
status is not OK
if the module is
switched on
– red: the module is switched on, but
the processor is not responding
or the module is in the boot-
loader state
– green: the module is
ready-to-operate
– red (< 150/150 ms interval):
software exception
– red alternating with the CAB
bus status LED:
CAB bootloader active
– green (750/250 m interval):
module status OK
CAB bus
status
BUS Item B in
Fig. 1
red/
yellow/
green
CAB bus inactive – red: baud rate synchronisation is
active
– green: CAB bus is ready-to-operate
– red (500 ms interval):
bus in scan mode
– red (1 s interval):
bus in position detection mode
– red alternating with the
module status LED:
module in the bootloader state
– yellow (250 ms interval):
bus in PREOP mode
– yellow (1 s interval):
bus in SAFEOP mode
Bus termi-
nation
TERM Item C in
Fig. 1
yellow Termination is
inactive
Termination is active -
I/O error ERR Item D in
Fig. 1
red Module is switched
off or is working
normally
An I/O error has occurred (e.g. over-
load)
-
Table 1: LED status displays for module functions
Interface Labelling LED
pos.
LED
colour
Status if LED is off Status if LED is on
10 V / 20 mA AO
(group 1)
AO0 to
AO3
1, 3,
6, 8
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
10 V / 20 mA AO
(group 2)
AO4 to
AO7
11, 13,
16, 18
red/
green
Output is OFF – red: output not OK (error)
– green: output ON
Table 2: LED status displays for interfaces
Table of contents
