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Classification of the Safety-Related Notices
This manual contains notices which you should observe to ensure your own
personal safety, as well as to protect the product and connected equipment. These
notices are highlighted in the manual by a warning triangle and are marked as
follows accordin
g
to the level of dan
g
er:
!Danger
indicates that death, severe personal injury will result if proper precautions are not
taken.
!Warning
indicates that death, severe personal injury can result if proper precautions are not
taken.
!Caution
with warning triangle indicates that minor personal injury can result if proper pre-
cautions are not taken.
Vorsicht
without warning triangle indicates that damage to property can result if proper pre-
cautions are not taken.
Notice
indicates that an undesirable result or status can occur if the relevant notice is
ignored.
Note
highlights important information on the product, using the product, or part of the
documentation that is of particular importance and that will be of benefit to the
user.
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Trademarks
SIMATICR, SIMATIC HMIR and SIMATIC NETR are registered trademarks of
SIEMENS AG.
Third parties using for their own purposes any other names in this document which
refer to trademarks might infringe upon the rights of the trademark owners.
Safety Instructions Regarding your Product
Before you use the product described here, read the safety instructions below
thoroughly.
Qualified Personnel
Only qualified personnel should be allowed to install and work on this equipment.
Qualified persons are defined as persons who are authorized to commission, to
ground, and to tag circuits, equipment, and systems in accordance with
established safety practices and standards.
Correct Usage of Hardware Products
Note the following:
!Warning
This device and its components may only be used for the applications described in
the catalog or the technical description, and only in connection with devices or
components from other manufacturers which have been approved or recommen-
ded by Siemens.
This product can only function correctly and safely if it is transported, stored, set
up, and installed correctly, and operated and maintained as recommended.
Before you use the supplied sample programs or programs you have written your-
self, make certain that no injury to persons nor damage to equipment can result in
your plant or process.
EC Notice: Commissioning must not be carried out until it has been established
that the machine in which this component is to be installed complies with the
conditions of directive 89/392/EEC.
Correct Usage of Software Products
Note the following:
!Warning
This software may only be used for the applications described in the catalog or the
technical description, and only in connection with devices or software products
from other manufacturers which have been approved or recommended by Sie-
mens.
Before you use the supplied sample programs or programs you have written your-
self, make certain that no injury to persons nor damage to equipment can result in
your plant or process.
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Prior to Startup
Before putting the product into operation, note the following:
Vorsicht
Prior to startup you must observe the instructions in the relevant documentation.
For ordering data of the documentation please refer to the catalogs or contact your
local SIEMENS representative.
We have checked the contents of this manual for agreement with the
hardware and software described. Since deviations cannot be precluded
entirely, we cannot guarantee full agreement. However, the data in this
manual are reviewed regularly and any necessary corrections included in
subsequent editions. Suggestions for improvement are welcomed.
DisclaimerCopyright E Siemens AG 2001- 2006 All rights reserved
The reproduction, transmission or use of this document or its contents is not
permitted without express written authority. Offenders will be liable for
damages. All rights, including rights created by patent grant or registration of
a utility model or design, are reserved.
Siemens AG
Automation and Drives
Industrial Communication
Postfach 4848, 90327 Nürnberg, Germany Technical data subject to change.
Siemens Aktiengesellschaft G79000- G8976-C089/04
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Preface
Purpose of the Manual
This manual contains basic information and an introduction to the AS-Interface
system concept and the corresponding system components.
You require this manual to understand the manuals that are shipped with the AS-i
system components, particularly with the AS-i master.
This release of the manual contains supplementary information relating to the
extension of the AS-i master specification and the extended SIMATIC NET product
range.
This involves the following aspects:
SWith the new concept of “Combined Transactions”, slaves with up to 8 binary
inputs and eight binary outputs can be connected (496 inputs and 496 outputs
per network).
SSimplification of analog data transfer
STransfer of serial data
SImproved diagnostics
SNew cable specification (switching cabinet cabling).
AS-Interface
The AS-Interface is the open international standard EN 50 295. Leading
manufacturers of sensors and actuators worldwide support the AS-Interface. The
electrical and mechanical specifications are available for interested companies.
Further Support - Who to Contact
If you have technical questions about using the product described here, please
contact your local Siemens representative.
You will find further information in the appendix in “Support and Training”.
Preface
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Other Documentation
You should also read the information supplied with the AS-i components from
SIMATIC NET and the documents on the Internet.
http://www.siemens.com/as-interface
Refer also to the references in the appendix of this manual.
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Contents
Preface 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
AS-Interface (AS-i) 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.1 Area of Application 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2 Overview of the AS-i System Components 13. . . . . . . . . . . . . . . . . . . . . . .
1.2.1 AS-i Masters 15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.2 AS-i Slaves 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2.3 Further AS-i System Components 18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.3 System Characteristics and Important Data 21. . . . . . . . . . . . . . . . . . . . . .
AS-Interface Safety at Work (ASIsafe) 25. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.1 ASIsafe - The Safety Concept 26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
AS-i System Components 28. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1 AS-i Masters 29. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.2 AS-i Modules: Blocks of the AS-i Slaves 31. . . . . . . . . . . . . . . . . . . . . . . . .
3.3 The AS-i Cable 33. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.4 Installing an AS-i Module 35. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.5 AS-Interface Repeaters / Extenders / Extension Plugs 36. . . . . . . . . . . . .
3.6 Addressing Unit 40. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.7 Diagnostic Device - AS-Interface Analyzer 42. . . . . . . . . . . . . . . . . . . . . .
The Master Mode -
Commands, Sequence, Programming 44. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.1 Master-Slave Principle 45. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.1.1 Tasks and Functions of the AS-i Master 46. . . . . . . . . . . . . . . . . . . . . . . . .
4.1.2 How an AS-i Slave Functions 48. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.2 Data Transfer 50. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.2.1 The Operating Phases 52. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.2.2 Interface Functions 55. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.2.3 Operating Extended AS-i Slaves with Standard AS-i Masters 56. . . . . . .
References 57. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Glossary 59. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Index
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1 AS-Interface (AS-i)
This chapter deals with the following topics:
SThe range of applications that can be covered by the AS-Interface
SWhich system components are available on the AS-Interface
SThe system properties of the AS-Interface
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1.1 Area of Application
Standardized fieldbus
AS-Interface is the only worldwide standardized bit-oriented fieldbus.
AS-i Cable Replaces “Cable Harnesses”
The Actuator/Sensor Interface or AS-Interface, normally abbreviated to AS-i, is a
connection system for the lowest process level in automation systems. The cable
harnesses previously found at this level are replaced by a single electrical cable,
the AS-i cable. Simple command devices, variable speed three-phase motors, light
barriers, inductive proximity switches and (over AS-i modules) more complex
devices such as process valves are connected over the AS-i cable and the AS-i
master to the controllers at the field level.
AS-Interface provides the option of transferring standard data and safety-oriented
data on the same cable. This allows, for example, the emergency stop cabling of a
machine or system to be implemented over AS-i.
AS-Interface in SIMATIC
AS-Interface is the SIMATIC product name for the AS-i technology.
Under the name AS-Interface, Siemens produces AS-i master interface modules
for programmable controllers. The range of available master interface modules is
being permanently extended. Up-to-date information can be obtained from your
local Siemens office.
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The following diagram illustrates the position of AS-i within the automation system.
Figure 1-1
The AS-interface is distinguished by several main characteristics:
SAS-interface is optimized for connecting binary and analog sensors and
actuators. The AS-i cable is used both for data exchange between the
sensors/actuators (AS-i slaves) and the AS-i master as well as for power supply
to the sensors / actuators.
SSimple and cost-effective wiring: simple installation with the “penetration”
technique, high flexibility with tree-like wiring.
SFast reaction times: the AS-i master requires a maximum of 5 ms for cyclic data
exchange with up to 31 nodes (with 62 nodes 10 ms).
SNodes (AS-i slaves) on the AS-i cable can be either sensors/actuators with an
integrated AS-i connector or AS-i modules to which up to four conventional
binary sensors/actuators can be connected.
SWith standard AS-i modules, up to 124 actuators/sensors can be operated on
the AS-i cable.
SIf you use AS-i modules with the extended addressing mode, up to 248
actuators and 248 sensors can be operated with one extended master. When
using the S-7.A.A profile with 8I/8O, up to 496 actuators and 496 sensors can
be operated.
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SExtended AS-i masters according to Specification V2.11 support extremely
simple access to analog sensors/actuators or modules operating in compliance
with the AS-Interface slave profile 7.3/7.4.
Extended AS-i masters according to Specification V3.0 also support the profiles
- S-7.5.5 (100 bps bi-directional; 2DI/2DO),
- S-7.A.5 (50 bps bi-directional; 2DI/2DO),
- S-B.A.5 (50 bps bi-directional; 20 chars/s),
- S-7.A.7 (4DI/4DO),
- S-7.A.A (8I/8O),
- S-7.A.8 (1 analog channel; 1 DO),
- S-7.A.9 (2 analog channels),
- S-6.0 (super fast analog).
AS-i - Open Standard for Network Systems at the Process Level
The electrical and mechanical specifications for AS-i were compiled by eleven
companies active in the field of binary sensors and actuators. The specifications
are available for companies with interests in this field. This makes AS-i an open,
heterogeneous standard. With AS-interface, Siemens provides a system complying
with the AS-i standard.
The “Association for Promoting Interfaces with Bus Capability for Binary Actuators
and Sensors” (AS-i Association) is responsible for promoting the application and
dissemination of the AS-i system; in particular the specification, standardization,
certification and general user information.
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Overview of the Various Specifications
Since the introduction of AS-Interface, three specifications have been published by
the AS International Association each with an extended and improved range of
functions on the AS-Interface.
The following table provides an overview:
Table 1-1 AS-i Specifications
Version V2.0 V2.11 V3.0
Year 1994 1998 2004
Master M0, M1, M2 M3 M4
Slave all other slaves
(all other profiles)
S-X.A, S-7.3, S-7.4 S-7.5.5, S-7.A.5,
S-B.A.5, S-7.A.7,
S-7.A.A, S-7.A.8,
S-7.A.9, S-6.0
New features 62 slaves,
expanded ID codes, I/O
errors, etc.
Synchronization, new
communication types etc.
Standards EN 50295:1998
IEC 62026-2:2000
IEC 62026-2:200X
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1.2 Overview of the AS-i System Components
System Components in the AS-i Network
SAS-i master
SAS-i slaves, distinguished according to their design as follows:
- AS-i modules
- Sensors/actuators with an integrated AS-i connection
SAS-i cable
SAS-i power supply unit
SAddressing unit (in some cases integrated in the master)
SDiagnostic unit
SSafety monitor
SRepeater
SExtender
SExtension plug
The following schematic shows a possible arrangement of AS-i components in a
tree structure.
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Figure 1-2
Note
Due to the continuing development of new AS-i system components, a complete
presentation of all the currently available components is not possible. Refer to the
system catalogs and ask your Siemens office for more information.
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1.2.1 AS-i Masters
Siemens currently offers the following AS-i master types:
SStandard AS-i masters
Up to 31 standard AS-i slaves or AS-i slaves with the extended addressing
mode (only A slaves) can be connected to the standard AS-i masters.
Standard AS-i masters are available for connecting to the following systems:
- SIMATIC S5
- SIMATIC S7
- SIMATIC C7
- Distributed I/O:
- SIMOTION C
SExtended AS-i Masters
-Addressing mode
The extended AS-i masters support 31 addresses that can be used for
standard AS-i slaves or AS-i slaves with the extended addressing mode.
AS-i slaves with the extended addressing mode can be connected in pairs
(programmed as A or B slaves) to an extended AS-i master and can use the
same address. This increases the number of addressable AS-i slaves to a
maximum of 62.
Due to the necessary address extension, the number of binary outputs is
reduced for AS-i slaves with extended addressing mode according to
Specification V2.11 to 3 per AS-i slave. This restriction does not apply to
slaves after Specification V3.0.
Newer AS-i masters also support the profiles S-7.5.5, S-7.A.5 and S-B.A.5
(serial protocol) as well as S-7.A.7 and S-7.A.A (4I/4O, 8I/8O) according to
AS-i Specification V3.0.
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-Analog value transfer for AS-i slaves
The extended masters of SIMATIC NET support the integrated transfer (no
special driver required) of AS-i analog slaves that operate in compliance with
profile S-7.3/7.4 of the AS-Interface specification. Analog slaves operating
with this profile can be addressed extremely simply by the user program.
The DP/AS-i LINK Advanced and IE/AS-i Link also support the profiles
S-7.A.8 and S-7.A.9 (fast analog) as well as S-6.0.X (super fast analog)
according to AS-i Specification V3.0 and the AS-i master profile M4.
Extended AS-i masters are available for linking to the following systems:
- SIMATIC S7
- Distributed I/O.
Note
The line of available AS-i masters is constantly being expanded. Refer to the
system catalogs and ask your Siemens office for more information.
1.2.2 AS-i Slaves
All the nodes that can be addressed by an AS-i master are known as AS-i slaves.
AS-i Slave Assembly System
AS-i slaves with the following assembly systems are available:
SAS-i modules
AS-i modules are AS-i slaves to which conventional sensors and actuators can
be connected.
SSensors/actuators with an integrated AS-i connection
Sensors/actuators with an integrated AS-i connection can be connected directly
to the AS-Interface.
Sensors and actuators are divided into field and cabinet modules according to
their use.
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Addressing Mode
AS-i slaves are available with the following addressing modes:
SStandard AS-i slaves
Standard AS-i slaves each occupy one address on the AS-Interface. Up to 31
standard AS-i slaves can be connected to the AS-Interface.
SAS-i Slaves with the extended addressing mode (A/B slaves)
Slaves with the extended addressing mode can be operated in pairs at the
same address with an extended AS-i master. This doubles the number of
addressable AS-i slaves to 62.
One of these AS-i slaves must be programmed as an A slave using the
addressing unit and the other as a B slave. If there is no addressing unit, the
AS-i slaves can also be programmed individually by the master with the user
program. Due to the address expansion according to Specification V2.11, the
number of binary outputs is reduced to three per AS-i slave.
If the AS-i slave meets Specification V3.0, the number of binary outputs is not
reduced (maximum 8 binary outputs) assuming that a master complying with
profile M4 is used.
A slaves can also be operated with a standard AS-i master (see also Section
4.2.3).
For more detailed information about these functions, refer to the AS-i master in
the previous section.
Analog Slaves
Analog slaves are special AS-i standard slaves that exchange analog values with
the AS-i master. Analog slaves are available with the following profiles:
SAS-i Analog slaves complying with profile S-7.1/S-7.2
Analog slaves complying with profile S-7.1/S-7.2 require special program
sections in the user program (drivers, function blocks) that execute the
sequential transfer of analog data.
SAS-i Analog slaves complying with profile S-7.3/S-7.4
Analog slaves complying with profile S-7.3/S-7.4 are intended for operation with
extended AS-i masters. The extended AS-i masters handle the exchange of
analog data with these slaves automatically. No special drivers or function
blocks are required in the user program.
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SAnalog slaves according to profile S-7.A.8/S -7.A.9 and profile S-6.0.X
Analog slaves according to profile S-7.A.8/S-7.A.9/S-6.0.X are intended for
operation with extended AS-i masters. They provide the following options:
- Fast transfer of analog values with extended addressing mode
(1 analog value/cycle)
- Simultaneous transfer of analog values and binary data
- Bi-directional transfer of binary data (read inputs / write outputs)
- Transfer of more than one analog channel in A/B technology
SCombi field devices complying with profile S-7.A.5/S-7.5.5
Combi field devices according to profile S-7.A.5/S-7.5.5 are slaves that output
and/or process both serial and digital data.
1.2.3 Further AS-i System Components
AS-i Cable
The AS-i cable, designed as an unshielded 2-wire cable, transfers signals and
provides the power supply for the sensors and actuators connected using AS-i
modules.
Networking is not restricted to one type of cable. If necessary, appropriate modules
or “T pieces” can be used to change to a simple 2-wire cable.
Note
If you change to a simple 2-wire cable, keep in mind the technical restrictions such
as cable cross section, voltage drop, and cable length as described in the AS-i
specification (see /1/ and /2/).
AS-i Power Supply Unit
The AS-i power supply unit supplies power for the AS-i nodes connected to the
AS-i cable. For actuators with particularly high power requirements, the connection
of an additional load power supply may be necessary (for example using special
application modules).
Addressing Unit
The addressing unit allows simple programming of AS-i slave addresses. (in some
cases integrated in the AS-i master. This means that a separate addressing unit is
not required.)
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AS-Interface Analyzer
The AS-Interface analyzer is used to test AS-i networks. Errors during installation,
for example bad contacts or EMC problems at extreme load, can be revealed by
this device. This makes it possible to evaluate the quality of complete networks.
The AS-Interface analyzer also allows documentation for commissioning and
service by creating test reports.
Safety Monitor
The safety monitor is heart of Safety at Work (see Chapter 2). You configure a safe
application on the PC with the safety monitor. You can choose between several
application-specific modes (for example EMERGENCY STOP function, and the
selection of stop category 0 or 1).
As an option allowing you to make full use of the diagnostic potential, the monitor
can also be operated with an AS-Interface address.
Repeater
A repeater extends the possible uses of the AS-Interface by extending the AS-i
segment and providing greater freedom in the planning of the system. Down times
and service times can also be reduced because the AS-Interface power supply is
displayed for each side (separate power supply).
Further features of the repeater include:
SSlaves can be used on both sides of the repeater.
SElectrical isolation of the two AS-i profile cable lines.
SA maximum of two repeaters can be used in series (max. cable length 300 m).
SParallel connection of several repeaters is possible (star configuration possible).
Extender
An extender is used to extend the distance between the master and the AS-i
segment with the AS-i slaves to a maximum of 100 m. On the master side,
however, no extra power supply is required here. An extender expands the
possible uses of the AS-Interface in much the same way as a repeater. Here, the
slaves can only be used downstream from the extender (from the perspective of
the master).
Further features of the extender include:
SWith repeaters connected in parallel, a cable length significantly longer than
300 m can be achieved. The maximum span is 500 m.
SA master can be located up to 100 m from the actual AS-i segment.
SNo electrical isolation of the two AS-i profile cable lines.
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Extension plug
When using the extension plug, the maximum possible cable length in an
AS-Interface segment can be doubled from 100 to 200 meters.
The extension plug is a passive component and is connected to the part of the
AS-Interface network furthest from the power unit.
Only one power unit is required to power the slaves on the up to 200 m long
segment. An undervoltage detection system in the extension plug monitors the
AS-i voltage and a diagnostic LED indicates whether the power is adequate up to
the end of the bus cable.
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1.3 System Characteristics and Important Data
How It Works
The AS-Interface/AS-i system operates as outlined below:
SMaster-slave access techniques
The AS-i interface is a “single master system”. This means that there is only
one master per AS-i network which controls the data exchange. This polls all
AS-i slaves one after the other and waits for a response.
SElectronic address setting
The address of an AS-i slave is its identifier. This only occurs once within an
AS-Interface system. The setting can either be made using a special
addressing unit or by an AS-i master. The address is always stored
permanently on the AS-i slave. When they are supplied, the AS-i slaves always
have the address “0”.
SOperating reliability and flexibility
The transmission technique used (current modulation) guarantees high
operating reliability. The master monitors the voltage on the cable and the
transferred data. It detects transmission errors and the failure of slaves and
sends a message to the PLC. The user can then react to this message.
Replacing or adding AS-i slaves during normal operation does not affect
communication with other AS-i slaves.
Physical Characteristics
The most important physical characteristics of the AS-Interface and its
components are as follows:
S2-wire cable for data and power supply
A simple 2-wire cable with a cross section of 2 x 1.5 mm2 can be used.
Shielding or twisting is not necessary. Both the data and the power are
transferred on this cable. The power available depends on the AS-i power
supply unit used.
For optimum wiring, the mechanically coded AS-i cable is available preventing
the connections being reversed and making simple contact with the AS-i
application modules using the penetration technique.
For the cabinet-internal wiring (IP20), there is an AS-i cable (profile cable) with
a cross-section of 2 x 0.8 mm2 available.
STree structure network with a cable length up to 100 m (300 m)
The “tree structure” of the AS-Interface allows any point on a cable section to
be used as the start of a new branch. An existing 100 m segment can be
extended by a maximum of two repeaters and therefore to a maximum of
300 m (see 3.5).
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SDirect integration
Practically all the electronics required for a slave has been integrated on a
special IC. This allows the AS-i connector to be integrated directly in binary
actuators or sensors. All the required components can be installed within a
space of approximately 2 cm3 .
SIncreased functionality, more uses for the customer
Direct integration allows devices to be equipped with a wide range of functions.
Four data and four parameter lines are available. The resulting “intelligent”
actuators/sensors increase the possibilities, for example, monitoring, parameter
assignment, wear or pollution checks etc.
SAdditional power supply for higher power requirements
An external source of power can be provided for slaves with a higher power
requirement (see /1/).
Configuration Limits
SCycle time
-max. 5 ms with standard AS-i slaves
-max. 10 ms with AS-i slaves using the extended addressing mode
AS-Interface/AS-i uses constant message lengths. Complicated procedures
for controlling transmission and identifying message lengths or data formats
are not required. This makes it possible for a master to poll all connected
standard slaves within a maximum of 5 ms and to update the data both on
the master and slave.
If only one AS-i slave using the extended addressing mode is located at an
address, this slave is polled at least every 5 ms. If two extended slaves (A
and B slave) share an address, the maximum polling cycle is 10 ms (40 ms
with 8E/8A according to Specification V3.0).
B slaves can only be connected to extended masters.
For time-critical applications, 16-bit input and output data can be transferred
in a maximum of 5 ms. To achieve this, the transmission bandwidth normally
used by up to four AS-i slaves is used for one slave.
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SNumber of connectable AS-i slaves
-Maximum of 31 standard slaves
-Maximum of 62 slaves with the extended addressing mode
AS-i slaves are the input and output channels of AS-i system. They are only
active when called by the AS-i master. They trigger actions or transmit
reactions to the master when commanded.
Each AS-i slave is identified by its own address (1 to 31). A maximum of 62
slaves using the extended addressing mode can be connected to an
extended master. Pairs of slaves using the extended addressing mode
occupy one address; in other words, the addresses 1 to 31 can be assigned
to two extended slaves.
If standard slaves are connected to an extended master, these occupy a
complete address; in other words, a maximum of 31 standard slaves can be
connected to an extended master.
SNumber of inputs/outputs
-A maximum of 248 binary inputs and outputs with standard modules
-A maximum of 496 inputs and outputs with modules using the
extended addressing mode
Each standard AS-i slave can receive 4 bits of data and send 4 bits of data.
Special modules allow each of these bits to be used for a binary actuator or
a binary sensor. This means that an AS-i cable with standard AS-i slaves
can have a maximum of 248 binary attachments (124 inputs and 124
outputs). All typical actuators or sensors can be connected to the
AS-interface in this way. The modules are used as distributed inputs/outputs.
If modules with the extended addressing mode are used, a maximum of 8
inputs and 8 outputs is available per module; in other words a maximum of
496 inputs and 496 outputs can be operated with modules using the
extended addressing mode.
Combi Field Devices (Serial Protocol)
Combi field devices use the serial protocol according to Specification V3.0. These
devices can output and/or process both serial and digital data. They include, for
example,
SDisplay modules for texts (approx. 20 characters/per second),
SCounter modules (read count, send parameter data, signal limit values),
SSlow analog values when monitoring temperature (read measured temperature
value, signal limit value) or
SPressure sensors (read measured pressure value, signal limit value).
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Diagnostics Options
A combi field device according to Specification V3.0 can be configured so that one
or two bits of binary data can be exchanged with the master and at the same time
a data channel can be made available over which measured value and/or control
data can be transferred cyclically or parameter and diagnostic data acyclically. This
means that new parameters can be read and/or written during operation and, when
necessary, current data can be requested. The amount of data can be selected by
the user, it is only limited in practical terms by the relatively low transmission rate
(50 bps).
Range of Functions of the Master Modules
The functions of the AS-i master modules are stipulated in the AS-i master
specification (see /1/ and /2/). An overview of these functions can be found in the
PICS in the appendix of the master module manual.
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2 AS-Interface Safety at Work (ASIsafe)
With “AS-Interface Safety at Work”, you can connect work-safety components
such as emergency stop switches or safety light barriers directly to the
AS-Interface network. The main system continues to operate unchanged. The
signal and safety sensors are evaluated by a safety monitor. Switching outputs can
then bring machines or systems to a safe status.
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2.1 ASIsafe - The Safety Concept
With the “Safety at Work” function, AS-Interface provides the option of transferring
standard data and safety-oriented data on the same cable. The basis of safe data
transfer is a dynamic, safe transfer protocol between the safety slaves and the
safety monitor.
ASIsafe is certified by TÜV. By making safety shutdowns possible with only one
cable, ASIsafe is not only an extremely economical solution but is also unique on
the current market. The great potential savings available with AS-Interface now
extend even to safety technology.
Figure 2-1 Safety at Work
Setup
The extension ASIsafe can be implemented very simply. You require only two extra
components to turn AS-Interface into a safety bus:
SA safety monitor
and
SSafe slaves.
You do not require a fail-safe PLC or any special masters.
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The safe AS-i slaves can acquire data from safe inputs. The safety monitor, in turn,
monitors the safe inputs, combines them with configurable logic and ensures a
safe shutdown over integrated safety relays.
With little effort, emergency stop buttons, light grids, laser scanners and many
other I/O modules can be interfaced directly and safely to AS-Interface up to
category 4 according to EN 954-1 or SIL3 according to IEC 61508. Even existing
applications can be extended simply and quickly by adding safety-oriented
functions with ASIsafe.
How It Works
The basis of safe data transfer is a dynamic, safe transfer protocol between the
safety AS-i slaves and the safety monitor. In each cycle, the safety monitor
expects a specific frame from each slave. This frame changes continually
according to a defined algorithm. The shutdown logic of the safety monitor is
configured in configuration software.
This allows the safety monitor to react differently to the triggers of specific safety
nodes. If the expected frame does not arrive due to a problem or an alarm
situation, the safety monitor starts the shutdown procedure over its two-channel
circuits safely and quickly after a maximum of 40 ms (worst case).
Grouping Safe Components
ASIsafe allows safe signals to be grouped. This is done by assigning each part of
the plant a safety monitor that is responsible for the safe shutdown when
necessary. This allows selective shutdown of the safety-oriented application.
Safe slaves are assigned to the safety monitors within an AS-Interface network
simply and conveniently using the parameter assignment software of the safety
monitor.
Diagnostics
The safety monitor obtains the safety-oriented information from the safe slaves
with the master polling technique typical for the AS-Interface.
Advantages: Additional wiring of the safety components for diagnostics is no longer
necessary. The evaluation of the safety-relevant events is also possible on an
operator control and monitoring system.
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3 AS-i System Components
AS-Interface is a single-master system. For SIMATIC systems, there are
communications processors (CPs) that control the process or field communication
as the AS-i masters.
These also include gateways that operate like an AS-i master and allow access to
the actuators and sensors, for example, of PROFIBUS DP or PROFINET.
The components of the AS-i transmission system, AS-i masters and AS-i slaves
are required on the AS-Interface.
The following sections provide an overview of the basic characteristics and
interaction of these components.
Note
The line of available AS-i system components is constantly being expanded.
Refer to the system catalogs and ask your Siemens office for more information.
You will find AS-i components from Siemens and information on using, configuring
and programming them on the SIMATIC NET Manual CD and in the appropriate
manuals.
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3.1 AS-i Masters
The AS-i master is the link to the higher-level control system. It organizes the data
traffic on the AS-i cable automatically and, when required, makes the signals of the
sensors and actuators available to a higher-level bus system (for example
PROFIBUS, PROFINET) over an interface. After polling the signals, the master
also transfers the parameter settings to the individual nodes, monitors the network
continuously and runs diagnostic checks.
In contrast to more complex bus systems, AS-i is almost completely
self-configuring. No settings need to be made (for example, access rights, data
rates, frame types etc.). The master automatically executes all functions required
for the correct operation of the AS-Interface. It also allows self-diagnostics of the
system. It detects problems and automatically assigns the correct address to a
slave replaced during maintenance.
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The following graphic shows two examples of how AS-i masters can be used in an
automation solution.
Figure 3-1 Sample Configurations
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3.2 AS-i Modules: Blocks of the AS-i Slaves
Concept
Within the AS-i system, the AS-i modules can be compared with input and output
modules. Along with the actuators and sensors they make up the AS-i slaves and
connect the slaves to the AS-i master. The actuators/sensors are connected via
M12 connectors. The pin assignment corresponds to DIN IEC 947 5-2. The
modules (IP67) with dimensions of approximately 45 x 45 x 80 mm are used locally
on the machine itself. They are connected over the AS-i cable.
Active and Passive Modules
The following modules must be distinguished:
SThe active AS-i module with integrated AS-i chip
Using this, conventional sensors and actuators can be connected. Every normal
actuator or sensor can therefore be networked via AS-i.
SThe passive AS-i module
This does not contain its own electronics and allows the connection of AS-i
sensors and actuators with integrated AS-i chips.
In keeping with the concept of the standard AS-i master and the extended AS-i
master (see Section 1.2), either AS-i chips with standard functions or with
extended functions are used.
The modules are designed so that a uniform electromechanical interface to the
AS-i cable can be created. This is achieved with the uniform lower section of the
module, which is therefore also known as a coupling module.
Specially constructed upper module sections, also known as application modules
are also available. The variations in the module components range from the simple
cover for branching the AS-i cable to application modules with integrated AS-i
chips for connecting up to four conventional sensors or actuators.
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Example:
The following diagram illustrates an active AS-i module for four connections.
DIN rail 35 mm
lower section
(coupling module)
Upper section
M12 connector
For
actuator/sensor
Application module display
Display of the
actuator/sensor
switching signal
AS-i cable
(application
module)
Figure 3-2
Note
Please ask your local sales office or distributor about other AS-i modules (for
example 4I/4O module).
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3.3 The AS-i Cable
AS-i Profile Cable for Use in the Field
The AS-i cable (shaped cable) allows simple and fast installation of an AS-i
system. The AS-i cable is a rubberized 2-wire cable (2 x 1.5 mm2). The profile
section prevents stations being connected with incorrect polarity.
The AS-i cable is contacted using insulation displacement connectors (IDC). Contact
blades penetrate the rubber jacket and make contact with the two wires. This
guarantees a low contact resistance and ensures
a reliable data connection. The cable does not
need to be cut, have its insulation removed or be
screwed down. For this type of connection, there
are coupling modules designed for the
penetration technique.
The jacket of the AS-i cable is rubber. If modules need to be moved after they have
been connected to the AS-i cable this is possible without causing any problems. The
AS-i cable is “self-healing”. This means that the
holes made by the contact blades in the rubber
jacket of the cable close themselves and revert to
the type of protection IP67. When the cable is
installed in an AS-i module, the cable seals the openings. The type of protection IP67
is therefore achieved.
AS-i profile cable for use in a switching cabinet
To wire up AS-i products designed for installation in switching cabinets, there is also
a profile cable available with a cross-section of
2 x 0.8 mm2. The reduced cross-section makes
the cable easier to work with, cheaper and
optimized for the use of the IDC technique
(degree of protection IP20).
Use of Other 2-Wire Cables
Apart from the special AS-i cable, any 2-wire cable with a cross-section of 2 x 1.5
mm2 can be used. Shielding or twisting is not necessary. For the transition from
the special AS-i cable to a different cable (e.g. a standard round cable) there is a
special module available without integrated electronics (transition from the AS-i
cable to four M12 connectors and transition from the AS-i cable to one M12
connector).
10 mm
6,5 mm
4 mm
4 mm
2 mm
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AS-i profile cables EPDM, TPM, PUR
The various AS-i profile cables differ in their jacket materials:
SEPDM - rubber
- Applications in protected areas with little chemical influence
STPE - special PVC compound
- For applications requiring a higher degree of immunity to chemicals
- UL/CSA approval
SPUR - polyurethane
- For applications requiring a higher degree of immunity to chemicals
- Foodstuffs areas
- Drag cables and drag chains (little friction)
- Ship building approval
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3.4 Installing an AS-i Module
The installation of an AS-i module on the AS-i cable is particularly simple using the
connection technique described. This is made clear by the following illustration:
Figure 3-3
1. The coupling module is screwed or clipped
onto a 35 mm DIN rail. The coupling module
includes four stoppers. These are used to
close unused cable openings.
Figure 3-4
2. The AS-i cable is inserted. It locks into a
guide above the contact blades and is
secured mechanically. No electrical contact
is established. Two stoppers are inserted in
the unused cable opening.
Figure 3-5
3. By screwing down the application module,
the AS-i cable is pressed onto the contact
blades. They penetrate the conductors at
two points and guarantee a reliable
connection. After correct installation, the
module has the type of protection IP67.
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3.5 AS-Interface Repeaters / Extenders / Extension Plugs
Area of Application
AS-Interface repeaters, extender and extension plugs are used to extend the
length restrictions of the AS-Interface of 10 m. An existing 100 m segment can be
extended by 2 further 100 m segments (total 300 m).
Using the Repeater
The AS-interface repeater is used when slaves must be operated on all cable
segments. A separate AS-interface power supply unit is then required for each
AS-interface segment (before and after the repeater). The repeater has the
following features:
SExtension of the cable length to a maximum of 300 m is possible (maximum of
2 repeater in series);
SSlaves can be used on both sides of the repeater.
SA power supply unit is required on both sides of the AS interface.
SElectrical isolation of the two cables.
SSeparate indication of the correct voltage for each side.
SInstallation in standard application module casing.
Figure 3-6 Using the Repeater
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Using the Extender
The AS-Interface extender is used in applications in which the master is installed at
a greater distance from the actual AS-Interface installation.
The extender has the following features:
SMasters can be located up to 100 m from the AS-interface segment.
SSlaves can only be used on the side of the extender away from the master.
SPower supply is only required on the side away from the master.
SNo electrical isolation of the two cables.
SIndication of the correct voltage.
SInstalled in standard application module casing. The extender is mounted on
the FK-E coupling module.
Figure 3-7 Figure 3-8 Using the Extender
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Using the Extension Plug
When using the extension plug, the maximum possible cable length in an
AS-Interface segment can be doubled from 100 to 200 meters.
The extension plug is a passive component and is connected to the part of the
AS-Interface network furthest from the power unit. It has an M12 male connector
and can therefore be connected to the AS-Interface M12 branch quickly with
degree of protection IP67.
Only one power unit is required to power the slaves on the up to 200 m long
segment.
An undervoltage detection system in the extension plug monitors the AS-Interface
voltage and a diagnostic LED indicates whether the power is adequate up to the
end of the bus cable.
The extension plug has the following features:
SDoubles the cable length per AS-Interface segment from 100 to 200 m
SExpanded applications and greater flexibility when planning systems due to the
doubling of the AS-Interface segment
SWhen combined with repeaters, allows a maximum expansion of the
AS-Interface network up to 600 m
SSimple monitoring with integrated overvoltage detection
Figure 3-9 Using the Extension Plug
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Maximum Network Span with Repeaters and Extension Plugs
if particularly large AS-Interface networks are necessary, the use of repeaters can
expand the maximum possible cable length even further.
Note
Note that repeaters are used in conjunction with extension plugs, it is not possible
to connect repeaters in series.
This results in a maximum possible distance between a master and a slave of
400 m and an absolute maximum span of 600 m. Parallel connection of repeaters
for a star-shaped structure with up to 200 m long segments is possible.
Figure 3-10 Combined Use of Repeaters and Extension Plugs
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3.6 Addressing Unit
Area of Application
Each slave on the AS-Interface requires an address. This address is saved on the
slave. You can program the address of a slave using the addressing unit.
This is done as explained below:
SOffline using an addressing unit
SOnline by the master of the AS-Interface system.
The values 1 to 31 (or 1A to 31A and 1B to 31B with the extended specification)
are permitted as addresses.
Figure 3-11 Addressing Unit
Functions
SReading out the slave address 0 to 31, A/B
SReading out the IO and ID codes of the slave
SStandard and extended ID code1 and ID code2
SStandard and extended addressing mode according to AS-Interface version
2.11
SProgramming the ID code 1
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SFunctional test of the AS-i slaves:
Read inputs and write outputs of digital or analog slaves.
SAS-Interface test:
Measurement of voltage (measuring range 0 to 35 V) and
current consumption (measuring range 0 to 100 mA) of the AS-Interface bus.
SStorage: Entire system configurations can be stored (profiles of all slave,
including those with extension according to the AS-Interface specification 2.11).
SDetection of the configuration of an entire system
Address Areas
A new slave that has not been assigned an address has address 0. It is then
detected by the master as a new slave without an address assignment and is not
yet included in normal communication.
Any address can be assigned, in other words, it does not matter whether the
slaves begin with address 21 or whether the first slave is actually given the
address 1.
Note
Pure addressing functionality is also available on every AS-i master. The address
can be set on the device itself using the keypad and display or via the integrated
Web server (WBM) or by the user program (STEP 7).
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3.7 Diagnostic Device - AS-Interface Analyzer
The AS-Interface analyzer is used to test AS-Interface networks. Troubleshooting
is made systematic and permanent monitoring is much easier.
Errors during installation, for example bad contacts or EMC problems at extreme
load, can be revealed by this device. This makes it possible to evaluate the quality
of complete networks.
The AS-Interface analyzer also allows documentation for commissioning and
service by creating test reports.
Detailed diagnostics is made possible for advanced AS-Interface users by trigger
functions. As a passive node, the AS-Interface analyzer listens in on the
AS-Interface network. At the same time the device is supplied with power from the
AS-i cable. This bus monitor interprets the physical signals and records
communication.
The data obtained is transferred to a PC over an RS 232 interface where it can be
evaluated with the supplied diagnostic software. This mode provides you with a
fast overview of the existing AS-Interface system. The configuration of the slaves
and the currently transferred data is displayed clearly. The numeric data of the
transferred frames can be seen in the advanced statistics.
Figure 3-12 Using the AS-Interface Analyzer
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4 The Master Mode -
Commands, Sequence, Programming
The tasks and functions of an AS-i master are described below.
This section is important for understanding the functions, modes and interfaces
available with the AS-i master modules. These functions and interfaces are
described in detail in the manuals of the individual CPs.
For further information refer to /1/
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4.1 Master-Slave Principle
How it works:
The AS-Interface operates on the master-slave principle. This means that the AS-i
master connected to the AS-i cable controls the data exchange with the slaves via
the interface to the AS-i cable.
The following diagram illustrates the two interfaces of the AS-i master CP.
SThe process data and parameter assignment commands are transferred via the
interface between the master CPU and the master CP.
The user programs have suitable function calls and mechanisms available for
reading and writing via this interface.
SInformation is exchanged with the AS-i slaves via the interface between the
master CP and AS-i cable.
PLC / PC
CPU
I/O
Configuration
Address
AS-i cable
AS-i slave
User
program
AS-i master
CP
Interface to the user
program
Param
eters
Figure 4-1
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4.1.1 Tasks and Functions of the AS-i Master
Graded Range of Performance – Use of Profiles According to the AS-i
Specification
The AS-i master specification distinguishes masters with different ranges of
functions known as a “profile”.
With the standard AS-i masters and extended AS-i masters, a distinction is made
between master classes (M0, M1, M2 for standard masters and M3, M4 for
extended masters). The AS-i specification stipulates which functions a master in a
particular class must be able to perform (refer also to the PICS in the appendix of
the manual for the particular CP).
The profiles have the following practical significance:
SMaster Profile M0:
The AS-i master can exchange I/O data with the individual AS-i slaves. The
master is configured by using the station configuration found on the cable
known as the “expected configuration”.
SMaster Profile M1:
This profile covers all the functions according to the AS-i master specification.
SMaster Profile M2:
The functionality of this profile corresponds to master profile M0, but in this
profile the AS-i master can also assign parameters to the AS-i slaves.
SMaster Profile M3:
The functionality is the same as master profile M2, however here complex
slaves can be assigned parameters by the AS-i master and 16-bit inputs or
outputs.
SMaster Profile M4:
The functionality is the same as master profile M3, however expanded by the
ability of the AS-i master to assign parameters to the combi slaves, transfer of
serial data, extended address mode (8 I/O), 16-bit inputs in the extended
address mode and fast/super fast analog value transfer.
The essential difference between extended AS-i masters and standard AS-i
masters is that they support the attachment of up to 62 AS-i slaves using the
extended addressing mode. Extended AS-i masters from SIMATIC NET also
provide particularly simple access for AS-Interface analog slaves complying with
profile 7.3/7.4.
Expanded masters according to Specification V3.0 provide particularly fast access
for analog slaves (including A/B slaves) according to profile S-7.A.8, S-7.A.9,
S-6.0.X.
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Note
If you decide to use standard operation (master profile M0), you can skip the
remaining sections in this chapter. Continue reading in the manual of your CP to
find out the steps required for installation and operating the module.
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4.1.2 How an AS-i Slave Functions
Connecting to the AS-i Cable
The AS-i slave has an integrated circuit (AS-i chip; see also Section 3.2) that
provides the attachment of an AS-i device (sensor/actuator) to the common bus
cable to the AS-i master. The integrated circuit contains the following components:
S8 configurable data inputs and outputs
S4 parameter outputs
S2 analog channels (16 bits)
The operating parameters, configuration data with I/O assignment, identification
code, and slave address are stored in additional memory (for example EEPROM).
I/O Data
The useful data for the automation components that were transferred from the AS-i
master to the AS-i slave are available at the data outputs. The values at the data
inputs are made available to the AS-i master when the AS-i slave is polled.
Parameters
Using the parameter outputs of the AS-i slave, the AS-i master can transfer values
that are not interpreted as simple data. These parameter values can be used to
control and switch over between internal operating modes of the sensors or
actuators. It could, for example, be possible to update a calibration value during
various operating phases. This function is possible with slaves with an integrated
AS-i connection providing they support the function in question. With the read
parameter values function, current diagnostic data can also be requested. The
amount of data can be freely selected.
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Configuration
The input/output configuration (I/O configuration) indicates which data lines of the
AS-i slave are used as inputs, outputs or as bi-directional outputs. The I/O
configuration (4 bits) can be found in the description of the AS-i slave (an overview
of codings can be found in /1/).
In addition to the I/O configuration, the type of AS-i slave is described by an
identification code, and with newer AS-Interface slaves by three identification
codes (ID code, ID1 code, ID2 code).
For more detailed information on the ID codes, refer to the manufacturer’s
description.
If you configure with STEP 7 (V5.4 or higher) and use AS-i slaves from Siemens,
these settings are unnecessary because they are stored in the system.
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4.2 Data Transfer
Information/Data Structure
Before introducing you to the operating phases and the functions during these
operating phases, a brief outline of the information structure of the AS-i
master/slave system is necessary.
The following schematic shows the system components in which the data fields
and lists of the system are stored. The data fields and lists are explained after the
diagram.
PLC / PC AS-i slave
CPU
I/O data
Parameter
Configuration data
Act. params.
Act. configuration
data
LDS
LAS
Data images
Config. data
(EEPROM)
Parameter
LPS
Exp. configuration
data
I/O data
Address
User
program
AS-i master CP
Diagnostic data
Figure 4-2
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The following structures are found on the AS-i master:
SData images
These contain temporarily stored information:
- Act. params.
The actual parameters are an image of the parameters currently on the AS-i
slave.
- Actual configuration data
The actual configuration data field contains the I/O configurations and ID
codes of all connected AS-i slaves once these data have been read from the
AS-i slaves.
- The list of detected AS-i slaves (LDS)
The LDS specifies which AS-i slaves were detected on the AS-i bus.
- The list of activated AS-i slaves (LAS)
The LAS specifies which AS-i slaves were activated by the AS-i master. I/O
data are only exchanged with activated AS-i slaves.
SI/O data
The process input and output data.
SConfiguration data
These are non-volatile data (e.g. stored in an EEPROM), which are available
unchanged even following a power failure.
- Expected configuration data
These are selectable comparison values which allow the configuration data
of the detected AS-i slaves to be checked.
- List of permanent AS-i slaves (LPS)
This list specifies the AS-i slaves expected on the AS-i cable by the AS-i
master. The AS-i master checks continuously whether all the AS-i slaves
specified in the LPS exist and whether their configuration data match the
expected configuration data.
The AS-i slave has the following structures:
SI/O data
SParameters
SActual configuration data
The configuration data include the I/O configuration and the ID codes of the
AS-i slave.
SAddress
The AS-i slaves have address “0” when installed. To allow a data exchange, the
AS-i slaves must be programmed with addresses other than “0”. The address
“0” is reserved for special functions.
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4.2.1 The Operating Phases
The following diagram illustrates the individual operating phases.
Initialization
Detection Phase
Startup
phase
Data Exchange Phase
Normal operation
Management Phase
Inclusion Phase
Offline phase
Activation phase in protected
mode
”Startup with configured
data”
Activation phase in
configuration mode
”Startup without configured
data/obtain configuration data”
Figure 4-3
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Initialization Mode
The initialization mode, also known as the offline phase, sets the basic status of
the master. The module is initialized after switching on the power supply or
following a restart during operation. During the initialization, the images of all the
slave inputs and the output data from the point of view of the application are set to
the value “0” (inactive).
After switching on the power supply, the configured parameters are copied to the
parameters field so that the subsequent activation is with the preset parameters. If
the AS-i master is reinitialized during operation, the values from the parameters
field which may have changed in the meantime are retained.
Startup Phase
SDetection phase: Detection of AS-i slaves in the startup phase
During startup or after a reset, the AS-i master runs through a startup phase
during which it detects which AS-i slaves are connected to the AS-i cable and
what type these slaves are. The “Type” of the slaves is specified by the
configuration data stored permanently on the AS-i slave when it is
manufactured and can be queried by the master. Configuration files contain the
I/O assignment of an AS-i slave and the slave type (ID codes).
The master enters detected slaves in the list of detected slaves (LDS).
SActivation phase: Activating AS-i slaves
After the AS-i slaves are detected, they are activated by the master sending a
special call. When activating individual stations, a distinction is made between
two modes on the AS-i master:
- Master in the configuration mode:
All detected stations (with the exception of the slave with address “0”) are
activated. In this mode, it is possible to read actual values and to store them
for a configuration (–> configuration mode).
- Master in the protected mode:
Only the stations corresponding to the desired configuration stored on the
AS-i master are activated. If the actual configuration found on the AS-i cable
differs from this desired configuration, this is indicated by the AS-i master.
The master enters activated AS-i slaves in the list of activated slaves (LAS).
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SNormal mode
On completion of the startup phase, the AS-i master switches to the normal
mode.
- Data exchange phase
In the normal mode, the master sends cyclic data (output data) to the
individual AS-i slaves and receives their acknowledgment messages (input
data). If an error is detected during the transmission, the master repeats the
appropriate poll.
- Management phase
During this phase, all existing jobs of the control application are processed
and sent. Possible jobs are, for example, as follows:
Parameter transfer:
Four parameter bits (three parameter bits with AS-i slaves with the extended
addressing mode according to Specification V2.11) are transferred to a slave
and are used, for example, for a threshold value setting.
Measured and control data can be exchanged cyclically or parameters and
diagnostic data acyclically over the available data channel (Read parameters
function).
Changing slave addresses:
This function allows the addresses of AS-i slaves to be changed by the
master if the AS-i slave supports this particular function.
- Inclusion phase
In the inclusion phase, newly added AS-i slaves are included in the list of
detected AS-i slaves and providing the configuration mode is selected they
are also activated (with the exception of slaves with address “0”). If the
master is in the protected mode, only slaves that match the expected
configuration saved on the AS-i master are activated. With this mechanism,
slaves that were temporarily out of service are also included again.
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4.2.2 Interface Functions
To control the master/slave interaction from the user program, there are various
functions available on the interface. The possibilities are explained based on the
illustration below. This shows the possible operations and the associated direction
of data flow (applies only to gateways).
AS-i master AS-i slave
User
program
Process image/
I/O data
CPU CP
I/O data
Parameter
Configuration data
Act. params.
Act. configuration
data
LDS
LAS
Data images
Config. data
(EEPROM)
Parameter
LAS
Exp. configuration
data
1. Read / write
2.
Read/store
configuration data
3.
Configure actual
4. Supply slaves with
configured parameters
(activation)
I/O data
Diagnostic data
Figure 4-4
1. Read/write
When writing, parameters are transferred to the slave and the parameter
images on the CP; when reading, parameters are transferred from the slave or
from the CP parameter image to the CPU.
2. Read and store (configured) configuration data
Configured parameters or configuration data are read from the non-volatile
memory of the CP.
3. Configure actual
When reading, the parameters and configuration data are read from the slave
and stored permanently on the CP. When writing, parameters and configuration
data are stored permanently on the CP.
4. Supply slaves with configured parameters / read parameters
Configured parameters are transferred from the non-volatile area of the CP to
the slaves.
With diagnostics-compliant slaves, diagnostic data is also read from the slave
when parameters are read.
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4.2.3 Operating Extended AS-i Slaves with Standard AS-i Masters
Note
Please note the following information about operating extended AS-i slaves with
standard AS-i masters!
SIf A slaves are connected to standard masters, make sure that the most
significant slave bit (bit 4) of each A slave is set to “0”. The most significant
parameter bit (bit 4) must also be set to “1” (default value).
Without these settings, the A slave cannot be operated with a standard master.
SB slaves must not be connected to standard AS-Interface masters.
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A References
/1/
AS-Interface - The Actuator-Sensor-Interface for Automation
Werner Kriesel, O.W. Madelung, Carl Hanser Verlag München Wien 1994
/2/
AS-Interface Complete Specification
can be ordered from the AS-i Association e.V.
Address:
AS-International Association
Zum Taubengarten 52
63571 Gelnhausen
Germany
Tel: +49 (6051) 4732-12
Fax: +49 (6051) 4732-82
E-mail: info@as-interface.net <mailto:info@as-interface.net>
Web: www.as-interface.net <http://www.as-interface.net>
CEO: Rolf Becker
/3/
Industrial Communication for Automation and Drives
Catalog IK PI
The catalog can be ordered from your local SIEMENS branch office or distributor.
/4/
Low-voltage Controls
SIRIUS-SENTRON-SIVACON Catalog LV1
The catalog can be ordered from your local SIEMENS branch office or distributor.
A References
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/5/
SIMATIC NET
Industrial Communications Networks PROFIBUS Networks
Manual
Siemens AG
/6/
PROFIBUS Standard EN 50170 (DIN 19245)
PROFINET Standard IEC 61158 / IEC 61784
Order numbers
The order numbers of the SIEMENS documentation listed above can be found in
the catalogs ”Industrial Communication for Automation and Drives, Catalog IK PI”
and ”SIMATIC Programmable Controllers SIMATIC S7 / M7 / C7”.
You can order these catalogs and obtain additional information from your local
SIEMENS branch or distributor.
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B Glossary
APF
AS-i Power Fail Flag or LED display that indicates that the power supply on the
AS-i cable is too low or has failed (for example failure of the AS-i power supply
unit).
AS-i (AS-Interface)
Actuator-sensor interface. A network system for the lowest field area of the
automation range. It is suitable for networking sensors and actuators with control
devices. (previously: SINEC S1)
AS-i A/B slave
AS-i A/B slaves use the extended addressing mode. Pairs of A/B slaves can be
assigned to one address on the AS-Interface; by organizing addresses in this
way, up to 62 AS-i A/B slaves can be attached to the AS-Interface.
AS-i analog slave
AS-i analog slaves are special AS-i (standard or A/B) slaves that exchange
analog values with the AS-i master.
AS-i master
The AS-i master is used to monitor and control the simplest binary actuators and
sensors via AS-i modules or AS-i slaves.
A distinction is made between a standard AS-i master and the extended AS-i
master.
AS-i module
For the AS-Interface, a module concept has been defined that allows the
block-like linking of AS-i slaves - sensors and actuators - via AS-i modules.
The following types of module exist:
The active AS-i module with integrated AS-i chip: Using this, up to four
conventional sensors and four conventional actuators can be connected.
The passive AS-i module: this functions as a distributor and provides a
connection for up to four sensors and actuators with an integrated AS-i chip.
In keeping with the concept of the standard AS-i master and the extended AS-i
master either AS-i chips with standard functions or with extended functions are
used in the AS-i slaves.
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AS-i slave
All the nodes that can be addressed by an AS-i master are known as AS-i
slaves.
AS-i slaves are distinguished by their design (AS-i modules and sensors or
actuators with an integrated AS-i attachment) and their address range (AS-i
standard slaves and AS-i A/B slaves with the extended addressing mode).
AS-i standard slave
An AS-i standard slave always occupies one address on the AS-Interface; with
this address organization, up to 31 AS-i standard slaves can be attached to the
AS-Interface.
Extended AS-i master
An extendedAS-i master supports 31 addresses that can be used for standard
AS-i slaves or AS-i slaves with the extended addressing mode. This increases
the number of addressable AS-i slaves to a maximum of 62.
The extended AS-i masters of SIMATIC NET support the integrated transfer of
AS-Interface analog slaves that operate in compliance with Profile S-7.3/S-7.4
of the AS-Interface Specification
The extended AS-i masters also support the master profiles M3 and M4 of the
AS-Interface specification
LAS
List of activated slaves.
LDS
List of detected slaves.
LPS
List of permanent slaves.
Nibble
A nibble is a unit of information consisting of four bits.
B Glossary
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Standard AS-i master
Up to 31 standard AS-i slaves or slaves with the extended addressing mode (A
slaves only) can be connected to a standard AS-i master.
WBM
Web-based Management provides a user interface that allows access to the
device (for example AS-i master) using an Internet browser.
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Zahlen
2-wire cable, 22, 34
A
A/B slaves, 18
Activation phase, 53
in the configuration mode, 52
in the protected mode, 52
Address setting, electronic, 22
Addressing mode, 16, 24
slaves with extended addressing mode, 18
Addressing unit, 19, 41
analog value transfer, 17
AS-i cable, 14
AS-i master, 14
AS-i slave, 14, 17
analog slaves, 17
AS-i cable, 10, 19, 34
AS-i master, 30
extended, 16
Siemens products, 16
standard, 16
tasks and functions, 46
AS-i master specification, 25
AS-i module, 17, 36
meaning and function, 32
AS-i power supply unit, 14, 19
AS-i slave, 17
addressing mode, 18
configuration, 48
functions, 48
maximum number, 24
AS-i slave assembly system, 17
AS-Interface , in SIMATIC, 10
AS-Interface Analyzer, 43
AS-Interface analyzer, 20
ASIsafe, 27
C
Combi field device, 19
Configuration data, 51
Configuration limits, 23
Cycle time, 23
D
Data exchange phase, 52, 54
Detection phase, 52, 53
Diagnostic device, 43
Diagnostic unit, 14
Diagnostics (ASIsafe), 28
E
Electrical isolation, 37
Extender, 37, 38
Extension Plug, 37, 39
F
Fast analog slaves, 19
I
I/O configuration, 49
I/O data, 48, 51
Inclusion phase, 52, 54
Information/data structure, 50
Initialization, 52
Initialization mode, 53
Interface functions, 55
L
List of permanent AS-i slaves (LPS), 51
Load current supply, additional, 19
LPS, 51
M
Management phase, 52, 54
Master in the configuration mode, 53
Master in the protected mode, 53
Master profile M0, 46
Master profile M1, 46
Master profile M2, 46
Master profile M3, 46
Master profile M4, 46
Master-slave access techniques, 22
Master-slave principle, 45
N
Network span, 40
Normal mode, 54
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O
Offline phase, 53
Operating phases, 52
Operating reliability and flexibility, 22
P
Parameter lines, 23
Parameters, 48
Physical characteristics, 22
Power supply, 19
additional, 23
Profiles according to the AS-i specification, 46
R
Range of functions, of the master modules, 25
Read and store (configured) configuration data,
55
Repeater, 37
S
Safety at Work, 27
Sensors/actuators, with integrated AS-i
connection, 17
Slave addresses, changing, 54
DIN rail, 36
Startup phase, 53
Super fast analog slaves, 19
System characteristics, 22
System components, 14
T
Tree structure, 22
