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Planning and System Manual Access ProfessionalIssue 2017
2
Contents
1 Safety remarks 4
2 System description
Access in general 6
Fields of application 6
Performance features 6
System overview 7
3 System structure, conductor material and range
General planning information 8
Planning areas 8
Supply limits ATLC/NG 670-… 9
Permitted conductor material 9
Network LAN 10
Cabling structure/areas 10
Power over Ethernet (PoE) 10
Network characteristics 10
Cabling for indoor devices 11
Cameras 12
Pick-up range of the camera 13
Location of the video camera 13
4 System components
Overview 18
Door stations (outdoor/indoor area) 20
Access cameras 24
External cameras 25
Indoor stations (audio/video) 26
Accessory 28
Distribution components – Door controller 29
Distribution components – Active/passive system expansion 30
Distribution components – Line rectifiers 31
Distribution components – Transformers 32
Space requirements in distribu-tion boards/IT cabinets (19 inch) 33
Access server variants 34
Minimum requirements – Server hardware / Virtual machine 36
System conditions Access Professional 37
Additional requirements imposed on virtualization 37
Network security 38
Client-Software 38
App 39
Software integration for non-Siedle systems 39
Upgrade (server) 39
Access licences 40
Microsoft licences (CAL) 43
5 Function overview 44
6 Configuration – Access System
Models 48
Server administration – device parameters 51
Button functions 53
7 Access control through the Vario bus
Ranges in the Vario bus 60
Distribution components – Transformers 62
Modules 63
Distribution components – Server/controller 64
8 Access circuit diagrams
Overview 66
Switching outputs/inputs 68
8.1 Siedle Vario 70
8.2 Access custom-fit door loudspeaker 98
8.3 Siedle Classic 104
8.4 Siedle Steel 114
8.5 Camera connection 126
8.6 Storey call button 130
9 Commissioning and operation
Commissioning 132
Commissioning requirements 132
Commissioning instruction 132
Recommendation 133
Operating manual 133
Updates and maintenance 133
Maintenance contract 133
3
RemarksThis document serves as a guide for the planning and technical implementation of the Siedle Access system. It is designed to provide an overview of the key points that need to be observed.
This document supplements and is supplemented by the Access server commissioning instructions.To supplement this system manual, you will find the latest edition in the download area of our website on www.siedle.com
For complex systems or special requirements, the technical consult-ants in Project Sales will be pleased to advise you.(For detailed information, see page 153)
We accept no liability for modi-fications, mistakes or printing errors.Modifications / additions, mistakes or printing errors do not form grounds for any claim to compensa-tion for damages.
10 Servicing
Service requirement 134
Warranty 134
Exchanging devices 134
Exchanging ATLM/ATLE 670-… 134
Exchanging a defective server AS 670-…/ASH 670-… 134
Update process 134
Start process 134
Initial commissioning/Login 135
Registration at the administrator user interface 135
LED displays 136
Terminal connections and meas-ured values 138
11 Glossary 140
12 Index
Access components 150
Access topics 151
13 Siedle service
Customer support and cus-tomer advice/Siedle centres 152
After-sales service 153
4
1 Safety remarks
Electrical voltage
Mounting, installation and servicing work on electrical devices may only be performed by a suitably qualified electrician.Failure to observe this regulation could result in the risk of serious damage to health or fatal injury due to electric shocks.
Devices with 230 V connection In accordance with DIN VDE 0100 part 410, section 411.1.3 attention must be paid to ensuring a safe sepa-ration between system lines and the mains voltage; i.e. system and mains cores must not be permitted to touch! The system line cable (extra-low safety voltage) must be stripped back by the minimum possible.
Electrostatic charging
As a result of electrostatic charging, direct contact with the circuit board can result in destruction of the device. Direct contact with the circuit board must therefore be avoided.
• When working at the device, observe the remarks relating to mains cut-off.• Observe the DIN EN 60065 standard! When establishing the electronic connection, observe the requirements of VDE 0805 or EN 60950.• The building installation must include an all-pole mains switch with a contact separation of at least 3 mm.• Ensure maximum fusing of 16 A for the mains connection in the building installation.• When planning large-scale (complex) systems, the distributor space required for the switch panel mounting devices must be taken into consideration in the distributor planning process. • No external voltages >30 V AC/DC may be applied to system users.
Electrical distribution boards and IT cabinet systems
Please make sufficient provisions in the electrical distribution boards/IT cabinet system for later expansion, changes or subsequent disassembly (service/maintenance).
Plan the electrical distribution board/the IT cabinet system so that the heat generated by all installed com-ponents is adequately dissipated and cannot impair any functions or cause damage to the components or infra-structure at the installation site.
During planning, take the applicable legal provisions, standards, directives and safety instructions for the opera-tion/installation site into account.
All system components which are designed for/suitable for installation in an electrical distribution board or in an IT cabinet system/housing may only be installed in the permitted installation position according to the enclosed product information.If system components are operated in improper installation positions or with improper operating parameters (e.g. excessive ambient tempera-ture), this will render their warranty rights void in the event of service.
5
Legal notice Photographs of individuals taken without their knowledge may not be published or stored in publicly acces-sible video memory facilities.Individuals who have been photo-graphed without their knowledge are entitled to request that pictures be deleted based on the right of persons to their own likeness. Never store pictures of persons you do not know in social networks or send them by email to others/public groups. This will infringe their per-sonal rights.If stored images are used as part of private / criminal law proceedings or in a police investigation, this requires prior clarification with a lawyer or the responsible police authority. Photographs of individuals taken without their knowledge may not be published or stored in publicly acces-sible video memory facilities.Individuals who have been photo-graphed without their knowledge are entitled to request that pictures be deleted based on the right of persons to their own likeness. Never store pictures of persons you do not know in social networks or send them by email to others/public groups. This will infringe their per-sonal rights.If stored images are used as part of private / criminal law proceedings or in a police investigation, this requires prior clarification with a lawyer or the responsible police authority.The legally admissible operation and installation of this device and all its system components (hardware and software) are the responsibility of the user and not of the device manufacturer.
Protect your network! Only use up-to-date components and terminals in the network in line with the latest state of the art. Regularly update the operating sys-tems of all components and termi-nals. Exchange obsolete components and terminals for up-to-date models. Use professional protective software (antivirus, firewall, …) in all termi-nals. Issue secure passwords. Secure your network with the highest secu-rity standards available in the net-work. Protect your network against unauthorized attack from inside and outside.
Protect your property! The Siedle App can be used from any location as a door release! Keep smartphones/tablets on which the Siedle App is activated safe from theft. Protect these devices against unauthorized usage with a code/password/fingerprint. Always use the latest protection mechanisms avail-able for your smartphone/tablet.
6
Access in general Siedle Access is a server-based IP system for building communication. It offers the whole breadth of Siedle communication system functionality, from the speech or video connec-tion through concierge functionality to complex switching and control functions. Access works in its own IP network.Central management on the Access server permits configuration and administration both over the web browser and remotely. In addition, it facilitates system upgrading by adding and exchanging devices or licence models (e.g. function licences, licences for the use of external makes such as VoIP tel-ephones).The system utilizes the network protocols TCP/IP and UDP, as well as SIP for internet telephony (VoIP), extended to include an access-specific data protocol. The audio encoding standard (G.711) and video encoding standard (H.264) guarantee high picture and tone quality with minimal network loading.
Fields of application Projects with• a large number of users (door stations and/or indoor devices) and long distances• stringent demands on audio and video transmission• several (also geographically) sepa-rate building sections• concierge and surveillance func-tions• heterogeneous utilization (private and commercial mixed use)• fundamental requirement for structured cabling and IP technology
2 System description
Performance features Access offers• Simple planning and installation in conformity with standards• PC-based one-man commissioning• Use of door stations, indoor sta-tions, software clients or apps• Up to 320 users and 25 parallel video and speech channels (full-duplex voice connections) per Access server• Worldwide accessibility with secure door call via Siedle app on iPhone or iPad• An efficient PC-based concierge workstation with video surveillance function• Server for central system manage-ment and update function• Indoor devices that are supplied via PoE (Power over Ethernet) according to IEEE802.3af• Extensive audio/video communica-tion, control and security functions in and outside the Access system• Connection of different commu-nication and control platforms (VoIP, KNX, etc.)• System can be linked to public net-work telephony and telephone sys-tems conforming to the SIP standard• Connection of selected third-party hardware (VoIP TC systems, VoIP telephone, IP cameras (only for app), KNX gateways)• Integration of SIP audio, SIP video and a/b telephones• Integration of external cameras• Intercom functionality• Function extensions via optionally available licences• Call rerouting, call forwarding and call follow-me function• Call differentiation in terminals• Door call via call display or code lock keypad• Storey door loudspeaker (with and without video) and storey door release• Display of messages, statuses, or arriving calls in plain text on devices with displays• Scan mode for connected cameras• Optional group formation (e.g. for announcements)
• Call storage facility with call list and video memory• Polyphonic ringtones
Remarks From Access V 3.1.0, the inte-gration and operation of a building automation server (JUNG Facility Pilot Server) is possible using the Access Video Panel. Please note that the building automation server (JUNG Facility Pilot Server) is not a constituent part of the Siedle Access system. Advisory services and the sale of hardware and licences take place exclusively through ALBRECHT JUNG GmbH & Co. KG.
7
ATLC/NG 670
ASHT
10:1012 1 20.05.2013Start 08:00 | 16.12.2014
AVP
AHTV AHF AHFV
Router
Internet
Internet
Internet
iPhone
iPad
iPad
iPhone
Router
Internet
ASHT
ASC
iPad
iPhone
Public mobil network
Public WLAN
Local network
Local telephone networkLocal Access network
Door station
Access serverSwitch
Switch
SIP telephone SIP telephone SIP telephone SIP telephone SIP telephone
SIP telephone system
Door release
WLAN
WLAN
Access gateway
Switch Customer server(e.g. mail server)
3G / 4G
System overview
8
3 System structure, conductor material and range
General planning information The basis for planning an Access system is an IP network configured in accordance with specifications for creating structured cabling (as described under Network cabling).The purpose of the Access security concept is to ensure that network cabling terminates not outside the door but with the ATLC/NG 670-… Consequently, the door connection (as described under cabling in the door area) is not a constituent part of the IP network.For positioning of the Access devices and network components, it is advis-able to provide a construction plan. This should take into consideration the length restrictions of the con-nection types such as copper and optical fibres. The space requirement of network components and Siedle devices must be determined and taken into consideration. Siedle recommends drawing up a schematic drawing of the network structure and the used Siedle devices.
ATLC/NG 670-… ATLC/NG 670-…(+ NG 602-…)
max. 10 m
Door station
Camera
Door area
Network LAN
Range depends on the installed conductor material.
Network LAN
Door release (Tö)
Planning areas Generally speaking, a distinction is drawn between the door area and the protected local area network (LAN).
Door area The installation for the door station is referred to as the door area. If cor-rectly installed, this area is protected from unauthorized access. From the outside, it is not possible to access the network.
Logical and self-explanatory names should be assigned to the various devices, for example FL1AP5 for 1st floor, apartment 5. All cable seg-ments between active components should be listed in an index showing their name, cable length and cable type.In order to permit correctly con-trolled server shutdown, we recom-mend including a UPS (uninter-ruptible power supply) unit in the planning.
Cabling in the door area The IP network terminates with the ATLC/NG 670-… To protect against unauthorized access, the ATLC/NG 670-… must be accommodated without fail inside the building.The cabling from the ATLC/NG 670-… to the door station is executed in the conventional way. Every door station/independent camera is installed in the system with its own ATLC/NG 670-…The cabling between the door release and ATLC/NG 670-… should be tamper-proof with a separate line (direct laying).If an external camera is used, the maximum distance between AIVS 670-… and the camera is 10 m. The AIVS 670-… requires a video input signal of 1 Vss.The following conductor materials with suitable maximum ranges have been officially approved for wiring between ATLC/NG 670-… and the door station:
9
Permitted conductor material
Cable type Diameter Maximum range
Telecommunications installation cable(Pair-twisted)
J-Y(St)Y… dia. 0.8 mm 200 m
J-Y(St)Y… dia. 0.6 mm 100 m
Telecommunications outdoor cable (Quad-twisted)
A-2Y(L)2Y… dia. 0.8 mm 200 m
A-2Y(L)2Y… dia. 0.6 mm 100 m
Network cable(Pair-twisted)
Cat. 5 AWG22… dia. 0.644 mm 120 m
Cat. 5 AWG23… dia. 0.573 mm 90 m
Cat. 5 AWG24… dia. 0.511 mm 80 m
Cat. 5 AWG26… dia. 0.405 mm 50 m
Terminals Cable type – Pair-twisted Cable type – Quad-twisted
ATLC/NG 670-0 Core Twin core Location Core Twin core Bundle
S1 a1 1
a1
1S2 b b
S3 a2 1
a2
S4 b b
D1 a3 1
a3
2D2 b b
V1 a4 1
a4
V2 b b
Depending on the cable type, pair-twisted or quad-twisted, we rec-ommend the following connection methods for the cabling between the door station and ATLC/NG 670-0:
Supply limits ATLC/NG 670-…
Siedle Vario Video door stations Audio door stations
Standard with COM 611-…
with DRM 612-…
Standard with COM 611-…
with DRM 612-…
ACM 67x-… 1 1 1 - - -
ATLM 670-… 1 1 1 1 1 1
COM 611-… - 1 - - 1 -
DRM 612-… - - 1 - - 1
BTM 650-… 10 1 1 26 12 12
Siedle Classic/Steel
ACM 67x-… 1 1 1 - - -
CATLE/SATLM 670-… 1 1 1 1 1 1
COM 611-… - 1 - - 1 -
DRM 612-… - - 1 - - 1
Call buttons 20 1 1 60 30 30
10
Network LAN The requirement for integration of an Access system is a network infra-structure created in accordance with the stipulations for generic cabling (from Category 5).Rules for generic cabling are set out in various standards:• DIN 50173-1 General requirementsFor individual building types, the fol-lowing standards apply in addition:• DIN 50173-2 (ISO/IEC 11801) for office buildings• DIN 50173-3 (ISO/IEC 24702) for industrially used locations• DIN 50173-4 (ISO/IEC 15018) for apartmentsInternationally, the ISO/IEC standards apply.
Cabling structure/areas The cabling is broken down into 3 areas.
Primary area • Fibre optic cables• Cabling between individual buildings and/or within buildings between several main building dis-tributors.• In the case of copper wire con-nections, adequate equipotential bonding must be guaranteed.
Secondary area • Fibre optic cables• The storeys are networked by means of storey distributors. Both fibre optic and copper connections can be used. This is dependent upon the switches used and their distance from the main distributor/switch.
Tertiary area • Twisted pair for fixed installation plus patch cable for cabling from the network junction box to the terminal.
ATLC/NG 670
ServerSwitch
Door station
Primary area
Tertiary area
Seco
ndar
y ar
ea
Door release (Tö)
3 System structure, conductor material and range
Network characteristics Access system• Maximum of 50 ms delay in one direction (one way delay)• Maximum of 100 ms total delay• Packet loss < 1%• Maximum of 20 ms jitter
Power over Ethernet (PoE) The supply for the indoor stations must be ensured by the customer via PoE. Depending on the network infrastructure, the decentral PoE supply of individual devices can take place with PoE injectors, and the central PoE supply of several devices can take place with PoE-capable routers/switches. Routers/switches used must be PoE-capable according to IEEE802.3af.
11
Cabling for indoor devices All indoor devices are always con-nected via an RJ45 8/8 (or RJ45 socket modules 8(8)) network socket. This is divided into two sockets. The left-hand socket is reserved for the network (LAN area). The right-hand socket is independent of the network and is used for connecting other control elements permitting additional uses.Supplementary functions such as a storey call button are also connected via the RJ45 network socket (right-hand socket/side) or the RJ45 socket modules 8(8).The range between ERT and the indoor device is max. 50 m (Cat 5 AWG22).The Access indoor devices can be installed without problems using standard RJ45 flush mounting net-work junction boxes.In this case, simply install the net-work junction box without the frame and panel. The Siedle indoor device can be mounted above the junction box and connected to the network with a plug-in connector.
If there is no flush mounted network socket at the required mounting height due to circumstances on site, the indoor call station can be surface mounted with the AZA 870-… In this case, the connection from the indoor call station to the network is established using a patch cable (not provided).
If the indoor call station is intended for use as a table-top unit, the device can be converted using the AZTV 870-… with 3 metre long con-necting cable.
165
cm
Eye level
Junction boxRJ45
Installation with patch cable
150
cm
165
cm
Eye levelJunction boxRJ45
Installation on flush mounted junctio box
Ideally, an RJ45 flush mounted junc-tion box should be positioned at the mounting height for the indoor device (display height less 15 cm).
Mounting with Access surface mounting accessory AZA 870-… and patch cable provided on site.
12
3 System structure, conductor material and range Cameras
External cameras Audio door station with external analogue camera: For the external camera, an AIVS 670-… and a matching separate power supply (e.g. NG 602…) is required.
Separately operated external ana-logue camera: One AIVS 670-… and one ATLC/NG 670-… are required for each external analogue camera.
25x23x2
2Tö
AIVS 670
ATLC/NG 670-…NG 602-…
Door stationCamera
LAN
24x23x23x22 2
AIVS 670 AIVS 670
ATLC/NG 670-…ATLC/NG 670-…(NG 602-…)
ATLC/NG 670-…(NG 602-…)
Tö
Door stationCamera 1 Camera 2
LAN
If the camera used cannot be oper-ated with 48 V DC, an additional power supply (e.g. NG 602-…) must be selected.
The camera is connected to the ATLC via the AIVS.
The camera is connected to the ATLC via the AIVS.
13
General Video cameras operating with the Vario door loudspeaker or exter-nally in the background provide an unobtrusive method of surveillance in the entrance area. Call, speech and door release operation of the door station. The visitor appears on screen at one or more of the video call stations.Possible applications include single and multiple family homes, private/commercial premises, practices and surgeries, administrative buildings etc.Other video components for special applications can be combined with our devices on request.
Location of the video camera Selection of the most suitable camera and its location is decisive to ensure good picture quality. The camera must not be directed towards:
• direct backlight• direct sunlight• very bright image backgrounds• highly reflective walls opposite the camera• lamps or direct light sources
Pick-up range of the camera
Diagram showing the pick-up range of external camera CE 600-… with image pick-up chip 1/3".
If the range of a camera module is not sufficient, external cameras such as the CE 600-… or CE 950-… can be used.
Object distance in m (h)
Obj
ect
wid
th in
m (a
)
12.00
10.00
8.00
6.00
4.00
2.00
0.00
3.8
mm
5.0
mm
9.5 mm
14
Diagram showing the pick-up range of external camera CE 950-… with image pick-up chip 1/4".
Object distance in m (h)
Obj
ect
wid
th in
m (a
)
3.8
mm
5.0 m
m
8.0 mm
45.6 mm
12.00
10.00
8.00
6.00
4.00
2.00
0.00
Diagram pickup rangeCamera ACM 670-… with image pick-up chip 1/3".
Pick-up angle of the camera module ACM 670-…The adjustment range of the ACM 670-… is indicated by shading.
Object distance in m (h)
Obj
ect
wid
th in
m (a
)
12.00
10.00
8.00
6.00
4.00
2.00
0.00
AC
M 6
70
2.9
mm
50 cm
86 c
m10
6 cm
160
cm
214
cm
appr. 60°
113 cm
50 c
mappr. 80°
3 System structure, conductor material and range Pick-up range of the camera
15
The picture excerpt visible on the display is mechanically set on the ACM 670-… camera by max. 30°.
Diagram pickup rangeCamera ACM 673-… with image pick-up chip 1/3".
Pick-up angle of the camera module ACM 673-…
50 cm
114
cm10
3 cm
217
cm
160
cm
ca. 100°
2 4 6 8 10 12
Object distance in m (h)
Obj
ect
wid
th in
m (a
)
12.00
10.00
8.00
6.00
4.00
2.00
0.00
2.1
mm
205 cm
50 c
m
appr. 130°
16
The ACM 673-… camera transmits the entire recorded video image.
Diagram pickup rangeCamera ACM 678-… with image pick-up chip 1/3".
Pick-up angle of the camera module ACM 678-… in full screen mode.
ca. 135°
160
cm
50 cm
234
cm
43 c
m
277
cm
2 4 6 8 10 12
12.00
10.00
8.00
6.00
4.00
2.00
0.00
1.4
mm
Object distance in m
Obj
ect
wid
th in
m
appr. 165°
760 cm
50 c
m
3 System structure, conductor material and range Pick-up range of the camera
17
Select the picture excerpt based on the existing mounting situation.
The pick-up angle of camera module ACM 678-… can be adjusted depending on the mounting situ-ation.Required picture excerpt from the camera view (1 to 9) or full screen (0).
Picture excerpt (1–3) top camera alignmentPicture excerpt (4–6) central camera alignmentPicture excerpt (7–9) bottom camera alignment
70° 70° 70°
160
cm
160
cm
160
cm
50 cm 50 cm 50 cm
277
cm
125
cm 195
cm
124
cm
43 c
m
167
cm
70 c
m
124
cm
1 2 3
456
7 8 9
18
4 System components Overview
* Can also be used for customer’s existing door stations/letterbox sys-tems.
Door stations (outdoor/indoor area) (Possible designs: Vario/Classic/Steel)• ACM 670-…Access camera 80 for Siedle Vario
• ACM 673-…Access camera 130 for Siedle Vario
• ACM 678-…Access camera 180 for Siedle Vario
• ATLE 670-… *Access custom-fit door loudspeaker incl. Bus call button matrix
• ATLM 670-…Access door loudspeaker module
• BRMA 050-… *Bus call button matrix
• BTM 650-01 to -04Bus call button module
• COM 611-…Code lock module
• DRM 612-…Display call module
• ELM 611-…Electronic-key reading module
• FPM 611-…Fingerprint module
• PME…Mail notification system(Classic/Steel)
• TÖ 61x-…Door release (DIN left or right)
• VTMC 640-…Flush-mounted colour camera
External cameras/ Surface-mounted components • AIVS 670-…Access Interface analog-video standard
• CE 600-…External colour CCD video camera for external mounting
• CE 950-…External colour CCD video camera for external mounting
Indoor stations (audio/video) • AHF 870-…Access handsfree telephone
• AHFV 870-…Access video handsfree telephone
• AHT 870-…Access in-house telephone
• AHTV 870-…Access video in-house telephone
• AVP 870-…Access video panel
Upgrade (audio indoor station) • AUV 870-…Access for video upgrade
Accessory • AZA 870-…Access surface-mount accessory
• AZIO 870-…Access input/output accessory
• AZTV 870-…Access table-top accessory
• AZTVP 870-…Access table-top accessory
• ZRE 600-…19 inch rack mounting accessory
Distribution components • ANG 600-…Access line rectifier
• ATLC/NG 670-…Access door loudspeaker controller with line rectifier
• ATLCE 670-…Access door loudspeaker controller extension
• AVA 670-…Access video decoupler
• ECE 602-…Entrance controller extension
• EC 602-…Entrance controller
• NG 602-…Line rectifier
• TCIP 603-…Door controller IP
• TCIP SRV 603-…Door controller IP server
• VNG 602-…Video line rectifier
• TR 602-…Transformer
• TR 603-…Transformer
• ZWA 640-…Western socket accessory
19
Client-Software • ASC 170-…Access Software Concierge
• ASHT 170-…Access Software In-house telephone
App • Siedle app for Access
Software integration for non-Siedle systems • ASM 170-…Access software module
Access user licence packages (Server operation) • APR 670-0 10 Access Professional
• APR 670-0 20 Access Professional
• APR 670-0 40 Access Professional
• APR 670-0 80 Access Professional
• APR 670-0 160 Access Professional
• APR 670-0 320 Access Professional
Optional Access application licences (Models) • ALFA 270-…Access licence for external audio device
• ALFS 270-…Access licence for external smart-phone
• ALFT 270-…Access licence for external tablet
• ALFV 270-…Access licence for external video device
• ALKNX 270-… <50Access licence for KNX connection
• ALKNX 270-… <300Access licence for KNX connection
• ALKNX 270-… >300Access licence for KNX connection
• ALT 270-…Access licence for telephony con-nection
• ASC 170-…Access Software Concierge
• ASHT 170-…Access Software In-house telephone
• ASM 170-…Access software module
Access server variantsSoftware variant• Access Professional V 4…
Hardware variant • ASH 670-04 MAccess server hardware M
• ASH 670-04 SAccess server hardware S
Upgrade (server) • ASU 670-04Access server upgrade package
Network security – active components for physical network separation • AGW 670-…Access gateway
20
Siedle Vario From the door bell to the switching and control centre, modern building communication has a lot to offer. Visitor information and guidance, receiving mail, lighting, security, access control and image projection: The requirements are many and varied. Siedle’s solution is a simple one: The modular principle.Siedle Vario is unmatched in its flex-ibility. As an open-ended, modular system, it fits in with the building owner’s requirements, the design specifications of the architect as well as building constraints. The Vario system design ensures that any com-bination of functional modules com-plies with the most stringent stand-ards of both form and function.Top-quality materials such as alu-minium or weather and UV-resistant polycarbonate guarantee reliable performance over a long service life.The same high standards apply to the planning and processing stage. Thanks to pre-installation, mounting aids and installation compartments, Siedle Vario is quickly and economi-cally planned and installed.
Siedle Classic A metal range with a system:Siedle Classic provides an attractive entry into the use of premium mate-rials at the threshold. The product line is a variable system with a broad range of functions and an enlarged application spectrum. Siedle Classic provides everything you could conceivably need at the front door. Alongside intercom system with bell, access control, the letterbox and movement sensor module supple-ment the audio and video communi-cation functions.Siedle Classic is available in various standard systems. These are designed to cover the majority of door communication requirements. We are able to supply bespoke solu-tions to address special requirements in terms of design and functionality.
Siedle Steel Door stations from the Siedle Steel range are individually produced and supplied as a fully functional com-plete unit. So when planning a new installation, all you need to decide is which type of installation system you require. We take charge of collating all the necessary components and equipping the door station.
4 System components Door stations (outdoor/indoor area)
21
ATLM 670-0 Access door loudspeaker module in 611 Vario design.Complete module with loudspeaker, microphone and light button with LED illuminated light symbol.Up to max. 48 call button modules can be connected in any optional combination, allowing up to max. 192 users.Acoustic feedback when actuating the call button at the BTM 650-01 to -04 optional.Ambient temperature: –20 °C to +55 °CProtection system: IP 54Height of structure (mm): 9Dimensions (mm) W x H x D: 99 x 99 x 35
The ATLM 670-0 draws 48 V DC over terminals S1-S4 from the ATLC/NG 670-0. This converts the voltage into 15 V DC with max. 400 mA and outputs this to terminals b1 and c1 of the terminal block.
ATLE 670-0 Access custom-fit door loudspeaker with bus call button matrix for mounting in a loudspeaker compart-ment, door constructions, letter-boxes etc.12 of the client’s own call buttons can be directly connected at the bus call button matrix BRMA 050-…Control output for external camera, connection of existing buttons via BRMA 050-…Max. 16 BRMA 050-… can be con-nected to 1 ATLE 670-…Protection system: Dependent on the mounting conditionsDimensions (mm) W x H x D: ATLE 670-0 124 x 60 x 31, BRMA 050-01 53 x 100 x 17Dimensions housing (mm) W x H x D: 100 x 60 x 31
BRMA 050-01 Bus call button matrix for the con-nection of existing call buttons to the custom-fit door loudspeaker BTLE 050-…/ATLE 670-…Max. 160 call buttons can be con-nected. However, a bus call button matrix BRMA 050-… is required for each started group of 12 call but-tons.Max. 14 BRMA 050-… can be con-nected to 1 BTLE 050-…Max. 16 BRMA 050-… can be con-nected to 1 ATLE 670-…
The connection of the call buttons for Siedle Classic is described in the call button wiring diagram.(For detailed information, see page 104)
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DRM 612-01 Display call module as an input device with 4-line display for placing door calls.Indication of names in the display in alphabetical order. The DRM 612-… can also be used in combination with the COM 611-… in order to display the input via the DRM 612-…Operating voltage: 12 V ACOperating current: max. 200 mAProtection system: IP 54Ambient temperature: –20 °C to +55 °CDimensions (mm) W x H x D: 99 x 99 x 27
COM 611-02 Code lock module as an input device for the placement of door calls and control functions in conjunction with Access and the Siedle access control system.• With keypad for making calls or• For controlling in conjunction with the Easikey controller EC 602-…• C button for cancelling incorrect inputs• DR button for direct door release via the EC 602-…Operating voltage: 12 V ACOperating current: max. 140 mAProtection system: IP 54Ambient temperature: –20 °C to +55 °CDimensions (mm) W x H x D: 99 x 99 x 27
BTM 650-01 to -04 Bus call button modules BTM 650-… with 1, 2, 3 or 4 call buttons. The BTM 650-… is connected to the ATLM 670-… via ribbon cable.Nameplate size (mm) W x H: 65 x 19.5Call button (mm) W x H: 24 x 24Protection system: IP 54Ambient temperature: –20 °C to +55 °CDimensions (mm) W x H x D: 99 x 99 x 27
4 System components Door stations (outdoor/indoor area)
1 2 3
4 5 6
7 8 9
F 0 COK
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PME-… Mail notification system for signal-ling incoming post on any Access indoor station.The mail notification system must be taken into account during planning for the letterbox system, as it is no longer technically possible to retrofit it later on.To use this function, the relevant indoor station must be configured via the Access administration inter-face.
TÖ-… (Door release) Siedle door release units are high-resistance > 20 Ohm and provide operating reliability even over long ranges.Standard commercially available door release units 8 – 12 V AC, 20 Ohm can be connected.
AIVS 670-0 Access analog video standard inter-face in surface-mount housing for connection of an analog camera to the ATLC 670-…Following a door call, the picture from the analog camera automati-cally appears on the Access indoor call station. Manual selection of the door is also possible. The camera cannot be controlled. Protection system: IP 65Ambient temperature: –20 °C to +55 °CDimensions (mm) W x H x D: 122 x 122 x 56Dimensions housing (mm) W x H x D: 93 x 93 x 56
AIVS 670
Access Interface Analog-Video Standard
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ACM 673-01 Access camera 130 for Siedle Vario with automatic day/night switchover (True Day/Night) and integrated infrared lighting. Horizontal/vertical pick-up angle: appr. 130°/100°Colour system: PALImage pick-up: CMOS sensor 1/3" 756 x 504 PixelResolution: 550 TV linesLens: 2.1 mmContinuous operation: suitable2-step heating: IntegratedProtection system: IP 54, IK 10Ambient temperature: –20 °C to +55 °CHeight of structure (mm): 15Dimensions (mm) W x H x D: 99 x 99 x 41
ACM 678-01 Access camera 180 for Siedle Vario with automatic day/night switchover. Horizontal/vertical pick-up angle: appr. 165°/135°Colour system: PALImage pick-up: CMOS sensor 1/3" 1280 x 960 PixelResolution: 600 TV linesLens: 1.4 mmContinuous operation: suitable2-step heating: IntegratedProtection system: IP 54, IK 10Ambient temperature: –20 °C to +55 °CHeight of structure (mm): 15Dimensions (mm) W x H x D: 99 x 99 x 41
4 System components Access cameras
ACM 670-02 Access camera 80 for Siedle Vario with automatic day/night switchover (True Day/Night) and integrated infrared lighting. Horizontal/vertical pick-up angle: appr. 80°/60°Colour system: PALImage pick-up: CMOS sensor 1/3" 728 x 488 PixelResolution: 500 TV linesLens: 2.9 mmMechanical adjustment range: 30° horizontal/vertical2-step heating: IntegratedProtection system: IP 54, IK 10Ambient temperature: –20 °C to +55 °CHeight of structure (mm): 32Dimensions (mm) W x H x D: 99 x 99 x 58
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VTMC 640-01 Flush-mounted colour camera with automatic day/night switchover and integrated infrared lighting. Horizontal/vertical pick-up angle: appr. 65°/53°Colour system: PALImage pick-up: CCD sensor 1/3" 752 x 582 PixelResolution: 470 TV linesLens: 3.7 mmContinuous operation: suitableHeating: 12 V AC max. 50 mAVideo output: 1 Vss at 75 OhmOperating voltage: 20–30 V DCOperating current: max. 105 mAProtection system: IP 54Ambient temperature: –20 °C to +40 °CDimensions (mm) W x H x D: 99 x 99 x 26
This analogue camera is connected to the ATLC 670-… door con-troller via the Access AIVSE 670-… analogue-video standard interface mounting.An additional power supply is required for the camera heating (e.g. TR 603-…).
CE 950-01 Colour CCD video camera external mounting with automatic day/night switchover (True Day/Night) and inte-grated infrared lighting. Horizontal pick-up angle: ca. 45,6°–4,0°Colour system: PALImage pick-up: CCD sensor 1/4" 976 x 582 PixelResolution: 700 TV linesLens: 3.8–45.6 mmMechanical adjustment range: 180° horizontal/verticalContinuous operation: suitableVideo output: 1 Vss at 75 OhmOperating voltage: 20–50 V DCOperating current: max. 500 mAProtection system: IP 67Ambient temperature: –20 °C to +50 °CDimensions (mm) W x H x D: 100 x 108 x 267
CE 600-01 Colour CCD video camera external mounting with automatic day/night switchover (True Day/Night) and inte-grated infrared lighting. Horizontal pick-up angle: appr. 81.2°–22.5°Colour system: PALImage pick-up: CCD sensor 1/3" 976 x 582 PixelResolution: 750 TV linesLens: 2.8–12 mmMechanical adjustment range: 160° horizontal/180° verticalContinuous operation: suitableVideo output: 1 Vss at 75 OhmOperating voltage: 20–50 V DCOperating current: max. 250 mAProtection system: IP 67Ambient temperature: –20 °C to +50 °CDimensions (mm) W x H x D: 75.3 x 76 x 218.5
External cameras
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AVP 870-0 Access video panel with touchscreen 17.8 cm for the Access system, made of high-grade plastic. The panel is a system product with a low-profile surface-mount housing for wall and table-top mounting. It provides ergonomically designed intuitive user prompting with gesture control.
The AVP 870-… can only be used in conjunction with Server Release V.2.1.0 and higher.On a change of release, additional costs could be incurred under certain circumstances.
With the functions calling, speech, vision, door release, light, remote switching and call silencing.Performance features:• Individual crafted design concept offering a wide choice of varied fea-tures and finishes• Display offers graphic scope for individual operation • 17.8 cm (7") touchscreen, resolu-tion 800 x 480 Pixel• Brilliant image reproduction• Excellent audio quality (dual loud-speaker technology)• Input for storey call• Output freely programmable• Additional inputs and outputs with Access input/output accessory AZIO 870-…• Call differentiation between door calls, storey calls, and internal calls• Switching functions• Video memory function• Can be used with table-top acces-sory AZTVP 870-… as a table-top device• Update capability using the Access server
Current consumption of the indoor station: PoE class 3Operating voltage: PoE in accord-ance with 802.3afAmbient temperature: +5 °C to +40 °CDimensions (mm) W x H x D: 202 x 202 x 30
AHTV 870-0 Access in-house telephone video with door release button and 7 additional buttons with 2-colour status LED. All buttons are freely programmable. The display shows the camera image and the graphic menu interface.With the functions calling, speech, door release, vision, light, remote switching and call silencing.Performance features:• Display 8.8 cm• Entrance for storey calls• Exit freely programmable• Call differentiation between door calls, storey calls and indoor calls• Switching functions• Status indications• Video memory function• Integrated 5-way control button• Can be used with table-top acces-sory AZTV 870-… as a table-top deviceCurrent consumption of the indoor station: PoE class 2Operating voltage: PoE in accord-ance with 802.3afAmbient temperature: +5 °C to +40 °CDimensions (mm) W x H x D: 106 x 278 x 51
4 System components Indoor stations (audio/video)
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AHT 870-0 Access in-house telephone with door release button and 7 additional but-tons with 2-colour status LED. All buttons are freely programmable. The display shows the graphic menu interface, but not a camera image. It is possible to upgrade to a fully functional video station.With the functions calling, speech, door release, light, remote switching and call barring.With the additional purchase of the AUV 870-… T, the AHT 870-… can be transformed into a fully valid video indoor device.Performance features:• Display 8.8 cm• Input for storey call• Output freely programmable• Call differentiation between door calls, storey calls, and internal calls• Switching functions• Status messages• Can be used with table-top acces-sory AZTV 870-… as a table-top deviceCurrent consumption of the indoor station: PoE class 2Operating voltage: PoE in accord-ance with 802.3afAmbient temperature: +5 °C to +40 °CDimensions (mm) W x H x D: 106 x 278 x 51
AHFV 870-0 Access handsfree telephone video with speech/control button, door release button and 7 additional but-tons with 2-colour status LED. All buttons are freely programmable. The display shows the camera image and the graphic menu interface.With the functions calling, speech, door release, vision, light, remote switching and call silencing. Performance features:• Display 8.8 cm• Entrance for storey calls• Exit freely programmable• Call differentiation between door calls, storey calls and indoor calls• Switching functions• Status indications• Video memory function• Integrated 5-way control button• Can be used with table-top acces-sory AZTV 870-… as a table-top deviceCurrent consumption of the indoor station: PoE class 2Operating voltage: PoE in accord-ance with 802.3afAmbient temperature: +5 °C to +40 °CDimensions (mm) W x H x D: 106 x 278 x 32
AHF 870-0 Access handsfree telephone with speech/control button, door release button and 7 additional buttons with 2-colour status LED. All buttons are freely programmable. The display shows the graphic menu interface, but not a camera image. It is pos-sible to upgrade to a fully functional video station.With the functions calling, speech, door release, light, remote switching and call barring.With the additional purchase of the AUV 870-… F, the AHF 870-… can be transformed into a fully valid video indoor device.Performance features:• Display 8.8 cm• Input for storey call• Output freely programmable• Call differentiation between door calls, storey calls, and internal calls• Switching functions• Status messages• Can be used with table-top acces-sory AZTV 870-… as a table-top deviceCurrent consumption of the indoor station: PoE class 2Operating voltage: PoE in accord-ance with 802.3afAmbient temperature: +5 °C to +40 °CDimensions (mm) W x H x D: 106 x 278 x 32
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AUV 870-0 T/F Access upgrade video subsequently enables the video function in an audio device.For the in-house telephone AHT 870-…, the AUV 870-0 T is required / for the handsfree telephone AHF 870-…, the AUV 870-0 F.
4 System components Accessory
AZTV 870-0 Access table-top accessory for Access in-house and handsfree telephones for conversion from wall mounted to table-top device, slip-proof console.Connecting cable: 2 x 8-core 3 m long with RJ45 plug
AZA 870-0 Access surface-mounting accessory for professional surface mounting of Access in-house and handsfree telephones.Comprises a connection adapter and 4 spacers. The raised height is increased by 8 mm.
AZIO 870-0 Access input/output accessory as circuit board for integration in an indoor unit with an additional input/output.Switching output:n.o. contact 30 V AC/DC, 1 ASwitching input for potential-free contacts (min. 20 V DC, 10 mA)
AZTVP 870-0 Table-top accessory for the video panel AVP 870-… for conversion from a wall to a table unit.Performance features:• Individual design concept with 3 design variants• Slip-proof table foot• Cable guide• 2 connecting cables with RJ45 plugConnecting cable: 2 x 8-core 3 m long with RJ45 plug
ZRE 600-0 19 inch rack mounting accessory for the Access Server S and the TCIP server. Comprising retaining plate including mounted handles and mounting accessories.Dimensions (mm) W x H x D: 483 x 88 x 132
TopOben
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ATLC/NG 670-0 Access door loudspeaker controller with line rectifier in switch panel housing as an interface for the con-nection and power supply of door components to the Access network.
Set consisting of ATLC 670-0 and ANG 600-0.
ATLC 670-0 Access door loudspeaker controller in switch panel housing as interface for connecting the door station to a network.Switch contact for door release and freely programmable switching input.Optional connection facility for a maximum of 3 extension modules ATLCE 670-…Supply via ANG 600-0Supply voltage 48 V DCOutput voltage: 10–16 VOutput current: max. 700/300 mA AC/DCContact type: Contact 30 V, 2 AProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 6Dimensions (mm) W x H x D: 107 x 89 x 60
Distribution components – Door controller
ANG 600-0 Access line rectifier in switch panel housing for power supply e.g. to the ATLC 670-… with 230 V AC switching contact.Admissible switching output:• Light bulbs max. 1300 W• Fluorescent lamps max. 800 W• Twin fluorescent lamps max. 1200 W• Parallel compensated fluorescent lamps max. 400 WOperating voltage: 100–240 V AC, +/-10 %, 50/60 HzOperating current: 0.5–1 AOutput voltage: 48 V DCOutput current: 800 mAFusing: primary T 2 A, secondary short circuit proofContact type: changeover switch max. 250 V AC, 6 AProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 6Dimensions (mm) W x H x D: 107 x 89 x 60
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ATLCE 670-0 Access door loudspeaker controller extension in switch panel housing with 4 outputs and 2 inputs.A maximum of 3 ATLCE 670-… units can be connected in series to an ATLC 670-… by means of ribbon cable.Protection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 3Dimensions (mm) W x H x D: 53.5 x 89 x 60
AVA 670-0 Access video decoupler in switch panel housing. Permits the decou-pling of an analogue video signal from the Access system.Operating voltage: 10–50 V DCOperating current: max. 25 mAProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 3Dimensions (mm) W x H x D: 53.5 x 89 x 60
ZWA 640-0 Western socket accessory for switch panel mounting. Integrated socket for 4/6/8-pin western plug.Connection by means of screw-type terminals.Protection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 1Dimensions (mm) W x H x D: 18 x 90 x 60
4 System components Distribution components – Active/passive system expansion
DSC 602-0 Pilfer safeguard controller in a switch panel housing to control a maximum of 2 pilfer safeguard accessories ZDS 601-…Using 2 integrated buttons, the mounting frame can be locked and unlocked. An LED flashes to indi-cate that the release button at the DSC 602-… has been activated. It is only possible to lock the mounting frame after removing the Vario key.Operating voltage: 12 V ACOperating current: max. 100 mAProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 3Dimensions (mm) W x H x D: 53.5 x 89 x 60
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VNG 602-02 Video line rectifier in switch panel housing for centrally supplying video door intercom systems or for sup-plying additional components (e.g. external camera).Operating voltage: 230 V AC, +/-10 %, 50/60 HzOperating current: 200 mAOutput voltage: 30 V DCOutput current: 1.1 AFusing: Si 1 T 200 mA, secondary side thermal fuseProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 10Dimensions (mm) W x H x D: 180 x 89 x 60
NG 602-01 Line rectifier in switch panel housing for supplying additional components (e.g. external camera).Operating voltage: 230 V AC, +/-10 %, 50/60 HzTypical current consumption: 41 VAOutput voltage: 23.3 V DC, 12 V ACOutput current: 0.3 A DC, 1.6 A ACProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 6Dimensions (mm) W x H x D: 107 x 89 x 60
Distribution components – Line rectifiers
ANG 600-0 Access line rectifier in switch panel housing for power supply e.g. to the ATLC 670-… with 230 V AC switching contact.Admissible switching output:• Light bulbs max. 1300 W• Fluorescent lamps max. 800 W• Twin fluorescent lamps max. 1200 W• Parallel compensated fluorescent lamps max. 400 WOperating voltage: 100–240 V AC, +/-10 %, 50/60 HzOperating current: 0.5–1 AOutput voltage: 48 V DCOutput current: 800 mAFusing: primary T 2 A, secondary short circuit proofContact type: changeover switch max. 250 V AC, 6 AProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 6Dimensions (mm) W x H x D: 107 x 89 x 60
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TR 602-01Transformer in switch panel housing for supplying additional components (e.g. easikey controller for access control).Operating voltage: 230 V AC, +/-10 %, 50/60 HzOperating current: 170 mAOutput voltage: 12 V ACOutput current: max. 2.5 AFusing: Secondary side with thermal fuseProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 6Dimensions (mm) W x H x D: 107 x 89 x 60
TR 603-0Transformer in switch panel housing for supplying additional components (e.g. mail notification system or door release via potential-free contact).Operating voltage: 230 V AC, +/-10 %, 50/60 HzOperating current: 100 mAOutput voltage: 12 V ACOutput current: max. 1.3 AFusing: Secondary side with thermal fuseProtection system: IP 30Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 3Dimensions (mm) W x H x D: 53.5 x 89 x 60
4 System components Distribution components – Transformers
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Space requirements in distribution boards/IT cabinets (19 inch)
Space required (height) in IT cabinet system/housing (19 inch)
Models Rack units (RU)
AGW 670-0 2
ASH 670-04 M 2
ASH 670-04 S * (2)
TCIP SRV 603-0* (2)
* with rack installation kit: ZRE 600-0 2
Please make sufficient provisions in the electrical distribution boards/IT cabinet system for later expansion, changes or subsequent disassembly (service/maintenance).All system components which are designed for/suitable for installation in an electrical distribution board or in an IT cabinet system/housing may only be installed in the permitted installation position according to the enclosed product information. If system components are operated in improper installation positions or with improper operating parameters (e.g. excessive ambient tempera-ture), this will render their warranty rights void in the event of service.During planning, take the applicable legal provisions, standards, directives and safety instructions for the opera-tion/installation site into account.
Space requirement in the distributor
Models Horizontal pitches (TE)
ANG 600-0 6
ASH 670-04 S * 3 x 12 TE
ATLC 670-0 6
ATLCE 670-0 3
ATLC/NG 670-0 2 x 6 TE
AVA 670-0 3
EC 602-03 6
ECE 602-0 3
NG 602-01 6
TCIP SRV 603-0 * 3 x 12 TE
TCIP 603-03 8
TR 602-01 6
TR 603-0 3
VNG 602-02 10
* with top hat rail mounting kit.Please ensure enough space is provided for service and maintenance.
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ASH 670-04 S Access Server hardware S for the IP-based building communication system Siedle Access Professional for up to 50 users. An Access user licence is required for the regular use of Access Server hardware.Version in a metal housing suitable for top hat rail mounting (space requirement distribution: 3 x 12 horizontal pitch units (TE)). Capable of integration in the existing IT landscape (with optional acces-sory ZRE 600-0 rack installation kit (486.6mm/19") – space requirement (height): 2 rack units (HE)). Scope of supply: Access Server hardware in desktop housing incl. pre-installed server operating system Windows Server 2012 R2 for Telecommunication and Access Professional with 30-day test licence as well as electrical con-necting cable and small mounting items for top hat rail mounting.Components:CPU: Intel Atom D510; 1.6 GHz Dual-CoreWorking memory: 2 GB DDR3Graphic: Intel GMA3150Hard disc: 320 GB SATA-IILAN: 2 x gigabitOperating voltage: 90–264 V AC, 47–63 HzTypical current consumption: max. 45 WHorizontal pitch (HP): 3 x 12Ambient temperature: +10 °C to +50 °CDimensions (mm) W x H x D: 328 x 88.8 x 201
ASH 670-04 M Access Server hardware M for the IP-based building communication system Siedle Access Professional for up to 320 users. An Access user licence is required for the regular use of Access Server hardware.Version in a housing for IT cabinet systems (482.6 mm / 19") – space requirement (height): 2 rack units (HE).Scope of supply: Access Server hardware in 19" housing incl. pre-installed server operating system Windows Server 2012 R2 for Telecommunication and Access Professional with 30-day test licence as well as electrical con-necting cable and small mounting items for installation in an existing 19" IT cabinet system.Components:CPU: Intel Xeon X3430; 2.4 GHz Quad-CoreWorking memory: 4 GB DDR3Graphics: Matrox G200eWHard disc: 250 GB SATA-IILAN: 2 x gigabitOperating voltage: 90–264 V AC, 47–63 HzTypical current consumption: max. 78 WAmbient temperature: +10 °C to +35 °CDimensions (mm) W x H x D: 463 x 88 x 460
4 System components Access server variants
Access Professional Access system software for installa-tion and operation on existing server hardware/virtualization with installed server operating system according to requirements. For regular operation of the Access system, an Access user licence for up to 320 users/devices must be purchased for a fee. The trial period for an Access system without a valid Access user licence ends after 30 days. In order to operate Access Professional correctly as a software variant, the provided server hardware/virtual machine and the network infrastructure must meet the minimum requirements of the Access system:• Processor output: min. Intel Xeon Quad Core Processor 64 Bit (from launch year 2014 or more recent)• Random access memory (RAM): at least 4 GB• Storage location (HD): at least 256 GB• Network connection (LAN): at least 1 x 1000 Mbit/s• Recommended number of line rectifiers: 2• Operating system: Microsoft Server 2012 R2 Standard or Datacenter (installation: Standard full installation -> Server with graphic user interface)• Role of the server operating system: optionally: DHCP server ser-vice, if no DHCP server is operated in the existing network.• Necessary DHCP options: Time Server, Log Servers, NTP Servers, Boot Server Host Name, Bootfile NameOptionally: Router (Default Gateway), Domain Name and DNS-Server
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A comparison of Access server variants
Access server variant Access Professional ASH 670-04 M ASH 670-04 S
Finish Software without server oper-ating system/virtualization
Hardware server + pre-installed Access Professional
Hardware server + pre-installed Access Professional
Access system version Access Professional V 4… Access Professional V 4… Access Professional V 4…
Possible number of users (User licences)
10–320 10–320 10–50
Possible number of com-munication connections (simultaneously)
25 25 10
Conditions • Hardware server• Server operating system (MS Server 2012 R2 Standard)• Microsoft .NET Framework 4.6.1 for Windows Server 2012 R2 (offline installer or web installer if internet connection exists).• Network/VLAN as required• Indoor stations with POE supply • Software clients/apps on terminals with network con-nection
• Network/VLAN as required• Indoor stations with POE supply • Software clients/apps on terminals with network connection
• Network/VLAN as required• Indoor stations with POE supply • Software clients/apps on terminals with network connection
As-delivered status • The Access server must be installed and commissioned.• For regular operation of the Access system, an Access user licence for up to 320 users/devices must be purchased for a fee. The trial period for an Access system without a valid Access user licence ends after 30 days.• The server hardware/virtu-alization and server operating system must be provided by the customer and must be available.• Microsoft licences: Please check whether any Microsoft server access licences (Client Access License – CAL) are required by the customer for operation of the Access users, or whether these already exist. (For detailed informa-tion, see page 43)
• The Access server is installed ready for operation and prepared for commissioning by the customer.• An Access user licence is required for the regular use of Access Professional. The Access user licence allows Siedle Access Professional to be enabled and used in Version V 4.0.0 for up to 320 users/terminals per system (optionally inclusive of licensed hardware indoor stations/door stations and/or optional hardware and software terminals to be licensed). Access user licences can be purchased for 10, 20, 40, 80, 160 or 320 users/terminals and combined as required. The trial period for an Access system without a valid Access user licence ends after 30 days.• Optional application licences enable the use of addi-tional performance features.
RemarkThe standard password for the server operating system of a Access Server Hardware (from ASH 670-04…) is: SiedleAccessMain2015
Please change the password on initial commis-sioning, taking note of the security instructions.
Maintenance contract Maintenance contracts for the Siedle Access system can be purchased both through the Siedle Project Sales and through an Access Certified Partner (ACP).(For detailed information, see page 133)
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Minimum requirements – Server hardware / Virtual machine *
Possible number of users (User licences)
320 50
Processor output min. Intel Xeon Quad Core Processor 64 Bit (from launch year 2014 or more recent)
min. Intel Atom D510; 1.6 GHz dual-core *
Random access memory (RAM) at least 4 GB at least 2 GB
Storage location (HD) at least 256 GB
Network connection (LAN) at least 1 x 1000 Mbit/s
Server operating system/software
Operating system Microsoft Server 2012 R2 Standard or Datacenter (installation: Standard full installation -> Server with graphic user interface)
Role of the server operating system optionally: DHCP server service, if no DHCP server is operated in the existing network.
Other server services optionally: NTP server
Necessary DHCP options Time Server, Log Servers, NTP Servers, Boot Server Host Name, Bootfile NameOptionally: Router (Default Gateway), Domain Name and DNS-Server
Access system version Access Professional – from Version 4.0.0
Access licences For regular operation of Access Professional, an Access user licence must be purchased against a fee.Optional application licences enable the use of additional performance features.
Network connection
Network Own physical network from CAT-5 and optionally with modified VLAN with Quality of Service (IEEE802.1p)
Transmission speed 100 MBit/sec (End devices)1000 MBit/sec (Server hardware)
Internet protocol IPv4
Multicast capability(only if you wish the video signal to be transferred in the network as a multicast stream. As an alterna-tive, the unicast operation mode can be used. With unicast, every video stream is separately generated and can cause very high network capacity utilization where there are high number of users with approx. 1 MBit per user.)
Throughout the entire network
Distribution list The use of switches is a requirement.
Power over Ethernet (PoE) Access indoor stations require PoE-capable switches or PoE injectors in compliance with IEEE802.3af
4 System components A comparison of Access server variants
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System conditions Access Professional In order to operate Access Professional correctly as a soft-ware variant, the provided server hardware/virtual machine and the network infrastructure must meet the minimum requirements of the Access system
Remarks• In order to work with Access Server Administration, you need an PC with the latest version of the web browser Mozilla Firefox.If you use a different web browser to the Mozilla Firefox, display errors can occur.• Two network sockets are affixed to the back of the Access server hardware (Service and Access). For linking the Access devices to the Access network, the Access socket must be used.
Notice on the scope of supply The Access server hardware is delivered as standard with the fol-lowing additional software tools and releases:• 7-Zip (x64)• Firefox• Notepad++• Putty• Wireshark• WinPcap• Remote desktop release
The listed files and programs are required for configuration and servicing purposes and should only be used by specialist and servicing personnel.The Access system (software variant) is delivered without these additional software tools and releases.
Additional requirements imposed on virtualization • For virtualization, from VMware vSphere 6 upwards a virtualization solution configured for server sys-tems must be used.• The minimum requirements imposed on the virtual machine are the same on principle as server hardware provided by the customer for up to 320 users. With the virtual machine, remember that at least 2 virtual and separate processor units (CPUs) must be made available.• If virtualization is used, the host (physically present server on which the virtual machine is operated) must have sufficient performance to make available the output needed for the virtual machine.
RemarksThe size of the hard disk storage capacity which should be selected depends on various factors when using a virtualization solution:• Number of users, groups and terminals• Utilization scenario and incidence of communication• Activated video memory func-tion: If no video memory function is used, we recommend a hard disk storage capacity of at least 30 Gigabytes. When using the video memory function, please contact the Access Service Center to be advised on the minimum capacity required for the hard disk memory.• For Access systems with up to 50 users, server hardware can be used which corresponds to the performance data of Access server hardware S:• - Processor output: At least Intel Atom D510; 1.6 GHz dual-core• - Random access memory (RAM): at least 2 GB• Important: Please note that in this configuration, no virtualization and no additional system expansion are possible.
* For Access systems with up to 50 users, server hardware can be used which corresponds to the performance data of Access server hardware S:- Processor output: At least Intel Atom D510; 1.6 GHz dual-core- Random access memory (RAM): at least 2 GBImportant: Please note that in this configuration, no virtualization and no additional system expansion are possible.
Virtualization
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4 System components Network security
AGW 670-01 Access gateway for the physical sep-aration of 2 networks (e.g. customer network and Access network) at an Access server. To operate Access terminals in different networks, using one or more Access gateways in large network structures allows two or more proprietary networks to be linked to an Access system while ensuring that they remain strictly separate.The AGW 670-… can only be used in conjunction with Server Release V.2.1.3 Build 938 and higher.On a change of release, additional costs could be incurred under certain circumstances.Operating voltage: 12 V DCTypical current consumption: max. 24 WAmbient temperature: 0 °C to +50 °CDimensions (mm) W x H x D: 200 x 200 x 52
ASHT 170-0 Access application licence “Access Software In-house telephone” for the operation of ASHT software on the Access system. The ASHT enables audio and video door communication via Windows-based PCs or control panels.Function overview:• Call differentiation between door calls, storey calls and indoor calls• Device and user overview • Users, doors and devices can be selected from lists• Global contact list• Status displays of switchgear • Switching functions via ATLC/ATLCE or KNXSystem requirements:• Microsoft® Windows 7, 8, 8.1, 10• Microsoft® .NET Framework 4.6.1• Microsoft® VC++ 2013 Redistributable Package (x86)• Microsoft® VC++ 2015 Redistributable Package (x86)• At least Microsoft® DirectX® 9.0c• CPU: Dual-Core from 2.0 GHz• At least 2 GB RAM• Graphics card with at least 1280 x 720 pixel, 128 MB RAM• Ethernet card/Network connection: 100 Mbit• Sound card
Client-Software
ASC 170-0 Access application licence “Access Software Concierge” for the opera-tion of the ASC software on the Access system.The ASC is the central communica-tion interface at the reception.Function overview:• Several audio and video links can be depicted simultaneously• Convenient forwarding functions • Music-on-hold• Status overview of all Doormatic door statuses• Convenient switching/control and display functions• Global contact list (incl. personal contact management)• Camera scan function • Answering machine functionsSystem requirements:• Microsoft® Windows 7, 8, 8.1, 10• Microsoft® .NET Framework 4.6.1• Microsoft® VC++ 2013 Redistributable Package (x86)• Microsoft® VC++ 2015 Redistributable Package (x86)• At least Microsoft® DirectX® 9.0c• CPU: Dual-Core from 2.0 GHz• At least 2 GB RAM• Graphics card with at least 1280 x 720 pixel, 128 MB RAM• Ethernet card/Network connection: 100 Mbit• Sound card
www.siedle.de/access www.siedle.de/access
39
Upgrade (server)
ASM 170-0 Access application licence “Access software module” for the opera-tion of ASM software on the Access system.The ASM enables Siedle Access to be integrated into non-Siedle systems (e.g. touch panels).You will be kept up to date with the latest information by our Project Sales DepartmentSystem requirements:• Microsoft® Windows 7, 8, 8.1, 10• Microsoft® .NET Framework 4.6.1• Microsoft® VC++ 2013 Redistributable Package (x86)• Microsoft® VC++ 2015 Redistributable Package (x86)• At least Microsoft® DirectX® 9.0c• CPU: Dual-Core from 2.0 GHz• At least 2 GB RAM• Graphics card with at least 128 MB RAM• Ethernet card/Network connection: 100 Mbit• Sound card
Software integration for non-Siedle systems
Siedle app for Access The Siedle app for Access turns the iPhone or iPad into a mobile exten-sion of an Access door intercom from Siedle: It allows you to see who is standing outside your door, talk to visitors at the entrance and open the door if you choose – no matter where you happen to be. The con-nection is established via WLAN or via the mobile phone network.If the app is not activated or if the bandwidth of the data network is not sufficient, the Access server automatically establishes a speech connection via the telephone net-work (call function). The call func-tion is only available for the iPhone.The Siedle app for Access can also perform switching and control func-tions, for example door release, light, garage door or shutters. Switching and control functions are encrypted for security purposes.
The complete functional scope of the Siedle app is described in the Apple App Store.
App
ASU 670-04 Access Server upgrade package for upgrading existing Access Server hardware with Access server software V. 1.x.x or V 2.x.x to Access Professional V 4.0.0.The Access server upgrade package can be purchased exclusively through an Access Certified Partner. To place the order, the serial number of the server hardware and the hardware ID of the existing access system are required. The upgrade may only be performed by an Access Certified Partner (ACP) or by the Access Service Center (ASC).Existing licences for the previous Access system remain valid, but must be converted.Scope of supply:• USB stick with system image (Microsoft Windows Server 2012 R2 for Telecommunication and Access Professional with 30-day test licence)• Microsoft End User Licence Agreement (EULA)• Windows Certificate of Authenticity (COA)• Upgrade instructions
www.siedle.de/accesswww.siedle.de/access
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4 System components Access licences
Licence management/Licence purchasing For regular operation of the Access system, an Access user licence for up to 320 users/devices must be pur-chased for a fee. Optional application licences enable the use of additional performance features.
Do you need Access licences?• Customers and sales partners from Germany, please consult one of our Siedle centres or one of our Access Certified Partners. * Also in your area.• Qualified staff are on hand to offer a fast, competent service.• By telephone, or where neces-sary we will be pleased to visit you on site.• Customers outside of Germany can contact one of our international representatives.(For detailed information, see page 152)
* Access Certified Partners (ACPs) are authorized to commission Access systems. They have proven their competency as planners and admin-istrators of Siedle Access systems, have passed independent audits per-formed by the accredited body TÜV Süd and are certified by Siedle.Contact details are available on the internet at www.siedle.com/acp
Notices – third party device licences For many requirements, the market is flooded by a large number of ideas and devices. Communication and compatibility between the dif-ferent components can sometimes be an issue. For this reason, it is advisable to make contact at an early stage with our project sales depart-ment. The link-up of new third-party devices / technical systems can be checked on customer request. For testing, a test device must be made available by the customer.
Procedure – Licence order
Access Professional(Software variant)
ASH 670-04 M/S(Access server hardware)
Test licencesThe trial period for an Access system without a valid Access user licence ends after 30 days.For regular operation of Access Professional, an Access user licence must be purchased against a fee.After expiry of the 30-day test period, the Access system is deacti-vated and cannot be used until the Access user licence is imported.Optional application licences enable the use of additional performance features.
Test licencesThe trial period for an Access system without a valid Access user licence ends after 30 days.For regular operation of Access Professional, an Access user licence must be purchased against a fee.After expiry of the 30-day test period, the Access system is deacti-vated and cannot be used until the Access user licence is imported.Optional application licences enable the use of additional performance features.
Time of placement of orderThe Access user licence and optional application licences must be ordered from an Access Certified Partner after Access Professional has been started for initial commissioning and the hardware ID has been gener-ated. For licence orders, the hard-ware ID generated by the Access system is required.
Time of placement of orderThe Access user licence and optional application licences must be ordered from an Access Certified Partner after Access Professional has been started for initial commissioning and the hardware ID has been gener-ated. For licence orders, the hard-ware ID generated by the Access system is required.
Microsoft licencesPlease check whether any Microsoft server access licences (Client Access License – CAL) are required by the customer for operation of the Access users, or whether these already exist. Microsoft Client Licences (CAL) are not included in the scope of supply of the Access server.
Microsoft licencesNo additional Microsoft server access licences (Client Access License – CAL) required.
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Access user licence packages – Server operation (All Access server variants)
Licence package – APR 670-0 [xx] Description
APR 670-0 10APR 670-0 20APR 670-0 40APR 670-0 80APR 670-0 160APR 670-0 320
An Access user licence is required for the regular use of Access Professional. The Access user licence allows Siedle Access Professional to be enabled and used in Version V 4.0.0 for up to 320 users/terminals per system (optionally inclusive of licensed hardware indoor stations/door stations and/or optional hardware and software terminals to be licensed). Access user licences can be purchased for 10, 20, 40, 80, 160 or 320 users/terminals and combined as required. The trial period for an Access system without a valid Access user licence ends after 30 days. Existing licences for the previous Access system remain valid, but must be converted.
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Optional Access application licences (All Access server variants) Optional application licences enable the use of additional performance features. These are sold exclusively through our Access Certified Partners, who will then also enable the licences for you.
Licence type Description
Third-party audio device (ALFA 270-0)
Access licence for third-party audio device, for link-up of a VoIP audio tele-phone to the Access system. An analogue telephone can be connected via a VoIP-ATA adapter. Third-party devices are subject to authorization by Siedle.
Non-Siedle smartphone device (ALFS 270-0)
The third-party smartphone Access licence permits connection of the smart-phone to the Access server. A separate licence is required per device. The smartphone functions as a mobile indoor device with video. An additional app is required for operation. This must be purchased from the App Store. (Currently only iPhones and not Android or Windows smartphones).
Non-Siedle tablet device (ALFT 270-0)
The Access licence for third-party tablets permits connection of the tablet to the Access server. A separate licence is required per device. The tablet functions as a mobile indoor device with video. An additional app is required for operation. This must be purchased from the App Store. (Currently only iPhones or iPads and not Android or Windows tablets).
Non-Siedle video device (ALFV 270-0)
Access licence for third-party video device, for link-up of a VoIP video tel-ephone to the Access system. A separate licence is required per device. Third-party devices are subject to authorization by Siedle.
KNX link (ALKNX 270-0 <50, <300, >300)
Access licence KNX connection for the import and management of KNX addresses; assignment of < 50 / < 300 / > 300 data points. You can send and receive KNX telegrams. Only one KNX gateway can be connected to the Access server.
Telephony link (ALT 270-0)
Access licence for telephone connection, for utilization of an external con-necting channel. A separate licence is required per channel.Third-party devices are subject to authorization by Siedle.
Access software concierge(ASC 170-0)
Access concierge licence for connection of the software client Access con-cierge software to the Access server. A separate licence is required per client.(Currently only PCs/laptops/tablets with Windows 7, 8, 8.1, 10)
Access in-house telephone(ASHT 170-0)
Access in-house telephone licence for connection of the software client in-house telephone to the Access server. A separate licence is required per client.(Currently only PCs/laptops/tablets with Windows 7, 8, 8.1, 10)
Software module(ASM 170-0)
Access software module licence for connection of the Access software module to the Access server. A separate licence is required per client.(Currently only PCs/laptops/tablets with Windows 7, 8, 8.1, 10)
4 System components Access licences
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Microsoft licences (CAL)
Microsoft Client Licences (CAL) are not included in the scope of supply of the Access server.
The Microsoft Client Access License (CAL) licences access by devices or users to Microsoft server operating systems whose licence model envis-ages that additional licensing is required every time the server soft-ware is accessed.
Customers who wish to operate the Access system on their own server must check whether CALS have to be purchased or whether the existing provision (in respect of the server type and CAL variant) is sufficient (e.g. the customer already has user CALs for all employees for the Windows server 2012. The cus-tomer is required to check its own licence agreements to determine whether these entitle users to access the Windows server of the Access system.).
CAL variants• Device CAL: A device CAL entitles all users to use a certain device with server access (e.g. PC in the workshop which is used by different employees.).• User CAL: A user CAL entitles a certain user to use any optional number of devices with server access (e.g. employee uses a PC, laptop and smartphone).
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5 Function overview
Calling, speech and video functions between door station and the con-nected Access indoor stations.An existing call can not be listened in to or viewed by other Access indoor call stations. Door release button for the door release function and 7 other buttons which can be assigned any optional functions. The defini-tion of functions and the relevant buttons take place during configura-tion of the server which assumes the function of central overall system administrator. The number of Access users is determined by the server.
Connection facility for a storey call button (ERT) for calling an apart-ment door and potential-free con-tact is available as standard.Different ringtones for calling from the front door, the apartment door, concierge or internal call.
Supplementary functions • Internal calls and speech commu-nication between Access indoor call stations are possible.• Connection of an analogue camera to the ATLC 670-… via the interface AIVS 670-…• Concierge function as central interface, e.g. at the reception• 8 freely selectable ringtones• Call forwarding• Call follow-me function• Parallel door and storey call• Group formation possible• Selective dialling of the door sta-tion using additional free buttons• Central video memory module (server) possible
Access system function Access system version
Communication V 4.0.x
Internal calls/internal conversations •
Audio and video privacy device •
Door call and door conversation with video •
Direct door call with video •
Storey call •
Echo compensation •
Active background noise suppression •
Call list with history (ASC/ASHT) •
Send and receive text messages (ASC/ASHT) •
Voicebox (ASC/ASHT) •
Storey call to groups configurable •
Acoustic feedback after pressing a call button •
AZIO configurable (additional input and output for AHT/AHTV, AHF/AHFV, AVP) •
Support of the ZAM 670 (Status display module) •
CTI-Call support with ASC/ASHT and external IP telephone •
• = available- = Not available
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Access system function Access system version
Video functions V 4.0.x
Central image memory •
Automatic and selective capture of a camera image per door call •
Selective capture, display and deletion of camera images/pictures •
Camera dialling via contact list or in video area •
Camera scan mode (ASC) •
Telephony functions
Connection of a telecommunications system to the Access Server (only VoIP) •
Selection of public network numbers •
Call using the landline network using a code lock •
Hold (ASC/ASHT) •
Brokering (ASC) •
Music on hold •
Call rerouting •
Call forwarding (ASC) •
Display of participant status •
Individual language setting (AHT/AHTV, AHF/AHFV, AVP) •
Supports DTMF tones (SIP info) for telephony connection •
Supports DTMF tones (RCF2833) for telephony connection •
Control functions (switching/control)
Doormatic function (target-, doorbased) with status indicator •
Support for binary KNX functions •
Switching functions configurable to call buttons •
ATLC input configurable •
Support for the ATLCE •
Inverting an output •
Retriggering an output •
Support for the mail notification system •
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5 Function overview
Access system function Access system version
Commissioning functions V 4.0.x
Browser-based commissioning •
Central management and configuration of participants and devices •
Group administration •
Several administrators with different authorisation levels •
Extended DHCP setting possibilities (from V 3.0.0 in the server operating system)
-
DHCP IP address range can be set •
NTP server can be set •
Remote configuration via the Access server's web interface •
Service functions
Configuration backup •
Remote maintenance and updates(Internet connection required!)
•
Monitoring of system capacity utilization (via dashboard) •
Manual line / user monitoring •
Management of software statuses in the Access server •
Detailed logging for Siedle support •
Interfaces
Connection to standardised IP telephone systems •
Integration of a / b converters •
External analogue cameras (with Access Interface Analog Video Standard – AIVS 670… to ATLC)
•
KNX or other building automation systems (e.g. Crestron or Control4) •
Link to video recording devices, operating displays and video servers via the den Access video decoupler
•
Compilation of customer-specific scripts for the automation of functions (optional and subject to charge)
•
Access control (via Vario bus) •
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Access system function Access system version
Client-Software V 4.0.x
ASHT: Overlay entire application on an incoming call •
ASHT: Automatic login and minimizing on Windows start-up •
ASC/ASHT: Confirmation request prior to closing the application •
ASM: Software module (integration in non-Siedle systems) •
App
Siedle app for Access (iPhone) •
Siedle app for Access (iPad) •
Hardware clients
AVP •
AVP with KNX •
AHF/AHFV •
AHT/AHTV •
Non-Siedle devices (SIP) •
• = available- = Not available
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* from Access-Server V 3.1… • = available- = Not available
6 Configuration – Access System Models
ATL
C 6
70-…
AH
F 87
0-…
AH
FV 8
70-…
AH
T 87
0-…
AH
TV 8
70-…
AV
P 87
0-…
ASC
170
-…
ASH
T 17
0-…
ASM
170
-…
Sied
le A
pp iP
ad
Sied
le a
pp iP
hone
SIP
vide
o te
leph
one
SIP
audi
o te
leph
one
Exte
rnal
tel
epho
nes
Bina
ry s
witc
hing
dev
ice
General
Name • • • • • • • • • • • • • • •
Description • • • • • • • • • • • • • • •
Address (KNX) - - - - - - - - - - - - - - •
Data type (KNX) - - - - - - - - - - - - - - •
Call number (Internal) • • • • • • • • • • • • • - -
Assignment • • • • • • • • • • • • • • -
Software type - - - - - - • • • • • - - - -
Account name - - - - - - • • • • • - - - -
Password (info field: Password is adopted from the user.)
- - - - - - • • • • • • • - -
Using as an autonomous telephone - - - - - - • • • - - - - - -
CTI device - - - - - - • • • - - - - - -
MAC address • • • • • • - - - - - - - - -
Installation type (Wall / table) - • • • • • - - - - - - - - -
Hardware revision • • • • • • - - - - - • • - -
Activate building automation * - - - - - • - - - - - - - - -
URL building automation * - - - - - • - - - - - - - - -
Ringtone volume - • • • • • - - - - - - - - -
Speech volume • • • • • • - - - - - - - - -
Display time at the terminal - • • • • • - - - - - - - - -
Microphone sensitivity • - - - - - - - - - - - - - -
Camera available • - - - - - - - - - - - - - -
Telephone script • • • • • • • • • • • • • • -
Size of audio frame [ms] - - - - - - - - - - - • • - -
Acoustic button acknowledgements • - - - - - - - - - - - - - -
Line prefix and (external) call number - - - - - - - - - - • - - • -
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ATL
C 6
70-…
AH
F 87
0-…
AH
FV 8
70-…
AH
T 87
0-…
AH
TV 8
70-…
AV
P 87
0-…
ASC
170
-…
ASH
T 17
0-…
ASM
170
-…
Sied
le A
pp iP
ad
Sied
le a
pp iP
hone
SIP
vide
o te
leph
one
SIP
audi
o te
leph
one
Exte
rnal
tel
epho
nes
Bina
ry s
witc
hing
dev
ice
Button configuration
Expert mode - • • • • - - - - - - - - - -
Single click - • • • • - - - - - - - - - -
Double click - • • • • - - - - - - - - - -
Press button - • • • • - - - - - - - - - -
Release button - • • • • - - - - - - - - - -
Entrance door light •
Buttons (The number is dependent on the equipment of the door stations)
• - - - - - - - - - - - - - -
Door release button / 2–8 - • • • • - - - - - - - - - -
Button / tile 1–44 - - - - - • - - - - - - - - -
Switching outputs/inputs
Voltage mode output 23,24 • - - - - - - - - - - - - - -
Output Terminals 23,24 • - - - - - - - - - - - - - -
Output Terminals 13,14 • - - - - - - - - - - - - - -
Output ANG Terminals 11,12,14 • - - - - - - - - - - - - - -
Output RJ45 Terminals 4,5 - • • • • • - - - - - - - - -
Inversion • • • • • • - - - - - - - - -
Retriggering • • • • • • - - - - - - - - -
Input Terminals 15,16,17,18 • - - - - - - - - - - - - - -
Input RJ45 Terminals 3,6 - • • • • • - - - - - - - - -
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6 Configuration – Access System Models
ATL
C 6
70-…
AH
F 87
0-…
AH
FV 8
70-…
AH
T 87
0-…
AH
TV 8
70-…
AV
P 87
0-…
ASC
170
-…
ASH
T 17
0-…
ASM
170
-…
Sied
le A
pp iP
ad
Sied
le a
pp iP
hone
SIP
vide
o te
leph
one
SIP
audi
o te
leph
one
Exte
rnal
tel
epho
nes
Bina
ry s
witc
hing
dev
ice
Extension of the switching out-puts/inputs
Door controller extension ATLCE 670-… (max. 3 ATLCE units per ATLC)
• - - - - - - - - - - - - - -
Hardware device extension AZIO 870-…(max. 1 AZIO per hardware terminal)
- • • • • • - - - - - - - - -
Doormatic
Time in seconds • • • • • • • • - • • - - - -
Doormatic function can be activated • • • • • • • (•)* - (•)* (•)* - - - -
• = available- = Not available
* The doormatic function is exclu-sively user-based with the Access in-house telephone software (ASHT) and the Siedle iPhone/iPad app and is only possible with Access server V 3.2 and above.
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Server administration – device parameters
General
Name Displayed device name in the Access system (contacts, phonebooks etc.).
Description Short description (e.g. model designation of the manufacturer or other information for device differentiation or logical assignment).
Address (KNX) Physical address of a KNX device in the KNX network (e.g. 10.12.200)
Data type (KNX) KNX function which can be initiated via the Access server. The Access server can send exclusively binary switching commands (On/Off).
Call number Internally assigned call number of the device (e.g. 121).
Assignment The standard entry is the designation of the higher-level user (e.g. Mr. Maier). The designation can be changed at any time.
Software type Unchangeable information field for categorization of the software client's software.
Account name Unchangeable information field. The account name is generated by the Access server and is required for login at the Access server.
Password Central password which was adopted from the higher-level users and is required for login at the Access server. The password is automatically assigned by the Access server and can be changed on the user level at any time.
Using as an autonomous telephone Selection of whether the software client should be used with or without a parallel operated CTI device (hardware terminal - e.g. AHT) (default set-ting: Yes = without). If the option No (No = with) has been defined, the additional configuration point CTI device appears in the menu. Via the selectable CTI device, speech input/output takes place while the software client continues to display the video image.
CTI device Terminal which takes over audio communication for a software client when the option Use as autonomous telephone has been configured with No.
MAC address Unique physical hardware address of the Access indoor station or the Access door loudspeaker controller.
Installation type Only with Access indoor stations AHF and AHFV. Depending on the mounting method (wall or table-top operation), the microphone behaviour changes (echo cancelling). With table-top operation, echo formation can occur when choosing the wrong mounting method, as the microphone is located on the underneath of the device and feedback can be created at the loudspeaker due to reflections from the tabletop.
Hardware revision Unchangeable information field which indicates the revision status of this indoor device.
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* Only SIP provider/gateway, non-Siedle devices (with ALFA/V licence)
6 Configuration – Access System Server administration – device parameters
Activate building automation * Activate or deactivate access to the building automation.
URL building automation * URL of the building automation server (Facility Pilot Server) with port indication (8080) in the prescribed form http://[IP address]:[Port] whose user interface you wish to be displayed in the AVP (e.g. http://192.168.1.10:8080).
Ringtone volume Ringtone volume of the device, which can be set from 0 to 100 %.
Speech volume Voice volume of the receiver or handsfree speaker, which can be set from 0 to 100 %.
Display time at the terminal Selection of whether the time should be displayed at the indoor device or not.Note: If you operate an Access system in several time zones, this option should be deactivated, as the Access server can only make available one time for the Access indoor stations.
Microphone sensitivity Microphone sensitivity of the door station, which can be set from 0 to 100 %.
Camera available Non changeable information field indicating whether there is a camera installed at the respective door station or not.
Telephone script Server logic deployed for calls at the door (e.g. standard telephone script). Several telephone scripts are available to choose from as standard in the Access system:
• Standard telephone script: Standard script used to allow communica-tion and standard functions to be carried out.• Secondary signal unit: Extended standard script to allow the additional connection of a secondary signal unit (e.g. visual signal unit in loud environ-ments). Can only be used if this terminal makes available a potential-free contact which is addressable.• Camera actuation: Extended standard script to allow the additional con-nection of a camera actuating device (e.g. video surveillance system covers the door area if a door call is initiated by a person).
A potential-free switching contact is required for the “secondary signal unit” and the “camera actuation” script in order to enable signalling to third-party devices/systems. These two scripts can only be used for Siedle hardware terminals, as the PC software and app cannot make switching contacts available. In addition, the third-party device/system must enable the connection of potential-free contacts. Only use the scripts in case of a concrete requirement and not as a standard selection.
53
Size of audio frame [ms] * For transporting audio signals in the network, a length of 20 ms or 40 ms can be selected for the audio frames. The value to be selected depends on the external SIP device used.
Acoustic button acknowledgements Acoustic feedback at the door station when pressing a call button. A standard acknowledgement tone is output. Alternatively a suitable audio file can be imported and used for output of a button acknowledgement (see menu System maintenance > Acoustic button acknowledgements).
Line prefix and (external) call number
Telephony route which determines which telephony gateway can be reached using which call number including country dialling code (e.g. 0 and 004977231234567890). For this, a preconfigured telephony gateway and a call number plan are required.
Button configuration
Expert mode The button configuration is assigned as standard with the single click and double click modes and can be upgraded by activating the expert mode to include the press button and release button modes.
Single click A function is initiated when pressing the button.
Double click A function is initiated when quickly pressing a button twice and releasing.
Press button When pressing the button (rising signal / edge) a function is initiated.
Release button When releasing the button (dropping signal / edge) a function is initiated.
Button functions
No action Button has no function.
Device call Call a selected device (e.g. ASHT – Mr. Maier).
User call Call to all the devices of the selected user (e.g. Mr Maier).
Group call Call to all devices of the users that are configured in the called call group (e.g. Purchasing department group).
External call Calling any optional (external) call number (preconfigured telephony gateway and call number plan required).
54
Rerouting to device/participant/group/external
Optional call rerouting to devices of the same or a different user, to a dif-ferent user, to a different group or to an external call number (preconfigured telephony gateway and call number plan required).In this way, you can configure a call rerouting function in the Access system from any call number (rerouting source) to any call number (rerouting destination) and assign the function to a device button. The devices, users, groups or external call number to which a call rerouting function can be established depends on the rights.
Explanation:• Rerouting source: The call number from which the incoming calls have to be rerouted. Users or groups can be selected as the rerouting source – not devices. The user of the device for which you are configuring the call rerouting is always pre-selected as standard as the rerouting source. If you want to reroute calls to a group or another user (depending on their rights), you must adjust the rerouting source accordingly. Only the calls to the call number specified in the rerouting source are rerouted to the stored rerouting destination. The rerouting destination can be a device, a user, a group or an external call number. Direct calls to a device are not covered by call rerouting! Example: Incoming calls to the Purchasing group should be rerouted to Mr Maier. Configuration in Access system: Rerouting to user -> Mr Maier // rerouting source: Purchasing groupThe devices or users to which calls can be rerouted depends on the logical grouping in the user tree and the relevant user rights settings.• Rerouting destination: The call number to which all incoming calls are rerouted at the configured rerouting source. The rerouting destination can be a device, a user, a group or an external call number.
6 Configuration – Access System Server administration – device parameters
55
Scripts and switching functions Selection of available scripts and switching functions for devices and doors (selection is dependent on the devices and Access door loudspeaker control-lers used):• Switching point: Selection of a function in order to be able to trigger this remotely: • Switching output for an Access indoor station (AHF/AHFV, AHT/AHTV, AVP) or a door station (ATLC+ANG/ATLCE) with switching right (e.g. pressing the button switches the light on in the cellar). An active switching output is indicated by a red LED button. • Doormatic function for one’s own user. In order to be able to select the option, “Doormatic can be activated” must be activated for one’s own user. An active doormatic is indicated by a white LED button. • Binary switching device (KNX) which has been integrated into the Access system.• Status point display: With the “Set” button you can determine whether an active switching output or an active doormatic function should be indi-cated via the LED button. Active switching outputs are indicated in “red” and active doormatic functions in “white”. A button with configured status point indicator is used as a pure status element.• Door release last door: If this button is pressed, the door release of the currently calling door is triggered, otherwise the door release of the door last connected to the device is triggered. This function is not indicated visu-ally.• Door light last door: If this button is pressed, the door light of the cur-rently calling door is switched, otherwise the door light of the door last con-nected to the device is switched. This function is not indicated visually.• Muting the microphone: The microphone of an Access indoor station can be deactivated and reactivated using the device button (e.g. for private comments in the room which are not to be heard by the call partner at the door station). If the microphone is muted, the device button lights up red. If a call is ended while the microphone is deactivated, the microphone is automatically reactivated.• Muting the ring tone: The ring tone of an Access indoor station can be muted via the device button when there is a call pending or when there is no call pending. If this function is active, incoming calls are only visually displayed on the terminals (depending on the device, by a flashing button/call button). If the ring tone is muted, the device button lights up red. After a restart of the Access server, incoming calls are indicated both acoustically and visually again.• Setting the user to Do not disturb: If this function is activated, no user or device calls are indicated on any of this user’s devices. The user is marked red in the contact list. Callers receive the engaged tone. The device button lights up red when the function is active.
56
Scripts and switching functions • Setting the user to Do not disturb: If this function is activated, no user or device calls are indicated on any of this user’s devices. The user is marked red in the contact list. Callers receive the engaged tone. The device button lights up red when the function is active.• Parameterized button script: Individual control script which has been integrated in the Access server for implementing customer-side special requests (e.g. special functions or control sequences which are to be controlled via the Access server), can be assigned to a button with an Access indoor station and configured via the “Set” button. The scripts need to be imported into the “Scripts” menu in advance. The displayed name Parameterized button script is only an example and can be changed for the scripts before import.
Remarks• If other parameters have to be configured stored for a particular button assignment (e.g. with one switching point), the button Setting becomes active. After clicking on Setting, a dialogue is displayed in which the rel-evant required data can be selected or entered.• The devices or users to which calls can be rerouted depends on the logical grouping in the user tree and the relevant user rights settings. • Using Scripts and switching functions > Switching point, the Doormatic function can be assigned to one of the buttons – provided the Doormatic function is activated for the user to which the device assigned.
Switching outputs/inputs The number of switching outputs/inputs available for configuration depends on the equipment of the Access door loudspeaker controller (e.g. additional extension module).
Switching function – Switching outputs
The functions (no action, free switching time, door release, door light) can be assigned to the relevant switching output.
Switching function – Switching inputs
The functions (no action, switching point, storey call, and signal status) can be assigned to this switching output.
Static switching operation (Toggle 0s)
Binary switching operation (ON / OFF)
Timed switching operation (door release / door light / free switching time)
Free switching time - timed switching operation (for door release / door light / free switching time): ON for (0.4 s / 1-59 s / 1-10 Min / 15-20-…-55 Min / 1-12 h) / OFF / (0 s) Toggle
Inverted The functions Free switching time, Door release and Light switching can be operated inverted (ON becomes OFF / OFF becomes ON).
6 Configuration – Access System Server administration – device parameters
57
Retriggerable Timed switching operation can additionally be retriggered (restart of the timed switching operation for the programmed switching time from when the button is pressed again in running switching operation).
Switching point The following functions can be triggered via a switching point:• Switching output of an Access end device located and enabled in the Access system (e.g. key-operated switch on the ground floor triggers a door release in the cellar via an indoor station)• Doormatic of an Access door controller located and enabled in the Access system (e.g. pressing the call button triggers the door release – doctor’s surgery)• Binary switching device (KNX) which is integrated into the Access system (e.g. pressing a button of an indoor station switches the light on via the KNX system)
To allow the Doormatic function to be activated from an Access indoor sta-tion, Access software client, at the relevant door/door station and the users of the affected devices, the option Doormatic can be activated must be activated. In addition, the Doormatic function must then be configured to a button of the relevant device in order to allow the Doormatic function to be activated and deactivated at a device.
If a configurable button on an Access indoor station is used as a trigger, then the function of a switching point can be triggered by a selectable actuation version:• Single click• Double click• Press button• Release button
For all other triggers (tile, button, switching input), the function of the switching point, where available, is only triggered when there is an incoming input signal (rising edge change) (e.g. potential-free button on a switching input is pressed).A switching output can be configured both for toggle or temporal switching operation as well as for invertibility and/or for retriggering. Doormatic can be activated and deactivated depending on the trigger in a user-based manner or depending on the door station. A binary switching device can be activated and deactivated.
58
6 Configuration – Access System Server administration – device parameters
Switching point Depending on the end device and its trigger, the following functions can be activated via a switching point:
End
dev
ice
Trig
ger
/fu
nct
ion
Swit
chin
g o
utp
ut
Do
orm
atic
use
r-re
late
d
Do
orm
atic
do
or-
bas
ed
Bin
ary
swit
chin
g
dev
ice
AHT/AHTV, AHF/AHFV
Configured button • • • •
Operating menu • • – •
AVP Configured tile • • • •
Operating menu • • – •
ASHT Function button • • – –
Operating menu • – – •
ASC Function button • • – –
Operating menu • – • •
App Function button • • – •
Operating menu • • – •
Favourites list • * • – •
Configured rooms • – – •
Configured scenes • * – – •
AHT/AHTV, AHF/AHFV,AVP, ATLC
Switching input • – – •
* no DR contacts
59
Story call Call signalling that can be displayed on your own device or a freely selectable user or a freely selectable group. If the potential-free contact at the input terminal of the terminal is closed, then the storey call is indicated for approx. 5 seconds. Here you can configure the device/user/group for which the storey call is to be indicated. Before you can assign a group to the storey call, a group must be configured.
Signal status Signal that is triggered when the potential-free contact at the input ter-minal of the terminal is closed (e.g. mail notification system). To assign this function to a button, you need to configure the switching input to “Signal status” and then save it. Then you can assign this switching input to one of the buttons on your devices in the “Button configuration > Status point display” area. Every user which has the right to display this input signal can have the input signal displayed at any optional device which is capable of visualizing status displays.If other parameters have to be configured for a particular button assign-ment (e.g. with one switching point), the Set button becomes active.After clicking on Set, a dialogue is displayed in which the relevant required data can be selected or entered.
60
7 Access control through the Vario bus Ranges in the Vario bus
The modules COM/ELM or FPM 611-… are used to actuate con-trol functions which are evaluated and implemented by the evaluating unit EC 602-…In order to utilize Vario bus control functions, an additional conductor with 4 cores is required from the input module to the EC 602-…For more information on access con-trol, contact our Project Service.
The range depends on the type of installation, the core diameter and the connected load values “AW” of the connected devices.
Range between the transformer and input modules with star-shaped installation. Max. 250 m using 0.8 mm core diameter and with connected load value “AW” 1. A second connected load value in the same line halves the range.
Connected load values AW
FPM 611-… 2
COM 611-… 1
ELM 611-… 1
EC 602-… 1
One TR 603-… supplies 2 AWsOne TR 602-… supplies 5 AWs
The conductor network laid throughout the entire Vario bus must not exceed 2000 m.
61
Access control with Easikey con-troller EC 602-… as independent system
Access control with door controller IP TCIP 603-… as independent system
4ECE 602-...EC 602-...
TR 603-...
FPM 611-...
COM 611-...
ELM 611-...
ELM/COM max. 250 m
FPM max. 130 m
4 TCIP 603-...
VNG 602-...
FPM 611-...
COM 611-...
ELM 611-...
ELM/COM max. 250 m
FPM max. 130 m
62
7 Access control through the Vario bus Distribution components – Transformers
TR 602-01 Transformer in switch panel housing for supplying additional components (e.g. easikey controller for access control).Operating voltage: 230 V AC, +/-10 %, 50/60 HzOperating current: 170 mAOutput voltage: 12 V ACOutput current: max. 2.5 AFusing: Secondary side with thermal fuseProtection system: IP 20Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 6Dimensions (mm) W x H x D: 107 x 89 x 60
TR 603-0 Transformer in switch panel housing for supplying additional components (e.g. mail notification system or door release via potential-free contact).Operating voltage: 230 V AC, +/-10 %, 50/60 HzOperating current: 100 mAOutput voltage: 12 V ACOutput current: max. 1.3 AFusing: Secondary side with thermal fuseProtection system: IP 30Ambient temperature: 0 °C to +40 °CHorizontal pitch (HP): 3Dimensions (mm) W x H x D: 53.5 x 89 x 60
63
Modules
ELM 611-01 Electronic key reading module as a contactless access control system with LED function.As reading unit of electronic keys or cards for opening doors, gates etc.Suitable for:• “stand-alone” mode, a maximum of 9 electronic keys or cards can be used.• in conjunction with entrance con-troller EC 602-… a maximum of 899 electronic keys or cards can be used.Programming takes place using PRI 602-… or PRI 602-… USB.• in conjunction with door con-troller IP TCIP 603-… a maximum of 500 users possible (larger systems on request).Programming via web browser.Operating voltage: 12 V ACOperating current: 120 mAContact type: contact 24 V, 1 AProtection system: IP 54Ambient temperature: –20 °C to +55 °CDimensions (mm) W x H x D: 99 x 99 x 27
COM 611-02 Code lock module as an input device for the placement of door calls and control functions in conjunction with Access and the Siedle access control system.• in conjunction with entrance con-troller EC 602-… for setting control function and access control codes.Programming takes place using PRI 602-… or PRI 602-… USB and provided PRS 602-…• in conjunction with door con-troller IP TCIP 603-… for setting control function and access control codes.Programming via web browser• Operation with call controller RC 602-…, for programming codes for door calls, a C button to delete incorrect entries and a DR button for direct door release. This door release function can additionally be con-trolled by a time switch provided by the user. An integrated LED can be used via an external potential-free contact as a status indication.Operating voltage: 12 V ACOperating current: max. 140 mAProtection system: IP 54Ambient temperature: –20 °C to +55 °CDimensions (mm) W x H x D: 99 x 99 x 27
FPM 611-02 Fingerprint module as access control system with function LED.Suitable for:• Stand-alone operation• Operation with entrance controller EC 602-…Programming takes place using PRI 602-… USB or PRI 602-… and provided PRS 602-…• Operation with door controller TCIP 603-…Programming by means of web browserOperating voltage: 12 V ACOperating current: max. 250 mAContact type: contact 24 V, 2 ASwitching time: 3 secProtection system: IP 54Ambient temperature: –20 °C to +55 °CHeight of structure (mm): 17Dimensions (mm) W x H x D: 99 x 99 x 43
1 2 3
4 5 6
7 8 9
F 0 C
64
TCIP 603-03 Door controller IP TCIP 603-… as a control unit for management of access entitlement in private homes and commercial properties.It is operated directly via a PC network (Ethernet standard 10/100 Mbit). Operation takes place using Microsoft Internet Explorer, current Version.• Actuation possible via code lock module COM 611-…, electronic key reading module ELM 611-… or fingerprint module FPM 611-… To increase security, two different access modules – e.g. COM/FPM 611-… – can be used in com-bination.• Password protected• Central management in the net-work via any optional PC (Internet Explorer current version)• Logging of access and system data• Attendance/absentee list as log (when using separate entrance and exit readers, i.e. 2 readers per door)• 5 entrances (e.g. door contacts)• 4 exits (e.g. door release)• with FSM 740-… and SCE 640-… extension possible by further inputs and outputs• Connection to Ethernet via RJ45 interface• LEDs for status display of entrances• 20 different time models possible• Max. 40 access groups• Management of up to 8 doors• Max. 500 users with 4 character-istics per user such as fingerprint, card or code• Max. 100 fingerprints can be scanned in
TCIP SRV 603-0 The Door controller IP server TCIP SRV 603-… is used to net-work several door controllers IP TCIP 603-… and to extend the maximum number of users which can be managed to over 500.Frequent settings and changes under the headings Time profiles, Public holi-days/vacation, Access groups and users are centrally managed and stored for several TCIP 603-… units.• Password protected• Central management in the network via any optional PC (Internet Explorer current version)• Logging of access and system data• Attendance/absentee list as log (when using separate entrance and exit readers, i.e. 2 readers per door)• Over 500 users, depending on the capacity of the network• Max. 100 fingerprints can be scanned in• Local configuration of menu points Inputs, Outputs, Readers, Network, System time/Time change and Doors• Automatic time adjustment (when accessing NTP time server)Operating voltage: 90–264 V AC, 47–63 HzTypical current consumption: max. 45 WHorizontal pitch (HP): 3 x 12Ambient temperature: +10 °C to +50 °CDimensions (mm) W x H x D: 328 x 88.8 x 201
• Variable public holiday and vaca-tion profiles• Automatic time changeover (sum-mertime/normal time)Operating voltage: 20–30 V DCOperating current: max. 700 mAContact type: Contact 15 V AC, 30 V DC, 2 AProtection system: IP 20Ambient temperature: 0 °C to +40 °CDimensions (mm) W x H x D: 131 x 111 x 52
7 Access control through the Vario bus Distribution components – Server/controller
TCIP 603
65
EC 602-03 Entrance controller in switch panel housing for code lock module COM 611-…, electronic key reading module ELM 611-… or fingerprint module FPM 611-…Display-supported programming of integrated buttons, or by means of PC software via additional program-ming interface PRI 602-… Electronic evaluating circuit with 2 switching outputs, extendable to 8 with ECE 602-…, 2 control inputs for time-controlled access rights.Entrance controller as electronic evaluating circuit for switching func-tions in conjunction with modules COM 611-02, ELM 611-01 and FPM 611-02*Operating voltage: 12 V ACOperating current: 150 mAContact type: 2 changeover switches 24 V, 2 AAmbient temperature: 0 °C to +40 °CProtection system: IP 20Horizontal pitch (HP): 6Dimensions (mm) W x H x D: 107 x 89 x 60
*FPM 611-02 programming only possible at the PC, accessories required.
ECE 602-0 Entry controller extension in switch panel housing. Upgrades the EC 602-… by a further 6 working contacts.Operating voltage: 12 V ACOperating current: max. 400 mAContact type: 6 n.o. contacts, 24 V, 2 AAmbient temperature: 0 °C to +40 °CProtection system: IP 20Horizontal pitch (HP): 3Dimensions (mm) W x H x D: 53.5 x 89 x 60
ZRE 600-0 19 inch rack mounting accessory for the Access Server S and the TCIP server. Comprising retaining plate including mounted handles and mounting accessories.Dimensions (mm) W x H x D: 483 x 88 x 132
66
8 Access circuit diagrams Overview
Device category Page Door loudspeaker Con-troller
Cameras/distributors Video inter-faces
Function modules
Peripherals
Models
ATL
M 6
70-…
CA
TLE
670-
…
SATL
M 6
70-…
ATL
E 67
0-…
ATL
C/
NG
670
-…
AC
M 6
73-…
CA
CM
673
-…
SAC
M 6
73-…
SVTM
C 6
40-…
Exte
rnal
cam
era
Vid
eo d
istr
ibut
or
AIV
S 67
0-…
AVA
670
-…
DRM
612
-…
CO
M 6
11-…
/ EC
602
-…
ZWA
640
-…
DSC
602
-0
PME
600-
…
Siedle Vario Basic circuit diagram (Video) 70 • • •
Potential-free door release work contact A2 72 • • •
Potential-free door release changeover contact A3 74 • • •
Additional power supply 76 • • •
Pilfer safeguard 78 • • • •
Video decoupler (camera in switching operation) 80 • • • •
Video decoupler (camera in continuous operation) 82 • • • •
External camera 84 • • • •
External camera and video decoupler 86 • • • • •
Code lock module as access control and direct dial 88 • • • •
Display call module 90 • • • • •
2 door stations/display call modules 92 • • • • •
Radio chime 94 • • •
Basic circuit diagram (Audio) 96 • •
Access custom-fit door loud-speaker
Access camera module 98 • • • •
External camera 100 • • • •
Basic circuit diagram (Audio) 102 • •
Siedle Classic Wiring diagram for call buttons 104
Basic circuit diagram (Video) 106 • • •
Video decoupler (camera in continuous operation) 108 • • • •
2 mail notification systems 110 • • • •
Code lock module as access control and direct dial 112 • • • •
Siedle Steel Basic circuit diagram (Video) 114 • • •
Video decoupler (camera in continuous operation) 116 • • • •
2 mail notification systems 118 • • • •
Code lock module as access control and direct dial 120 • • • •
Flush mounted camera 122 • • •
Display call module 124 • • • • •
Camera connection
External camera with video distributor 126 • • • •
External camera 128 • • •
Storey call button
Customer-side signalling device130
• = available
67
Device category Page Door loudspeaker Con-troller
Cameras/distributors Video inter-faces
Function modules
Peripherals
Models
ATL
M 6
70-…
CA
TLE
670-
…
SATL
M 6
70-…
ATL
E 67
0-…
ATL
C/
NG
670
-…
AC
M 6
73-…
CA
CM
673
-…
SAC
M 6
73-…
SVTM
C 6
40-…
Exte
rnal
cam
era
Vid
eo d
istr
ibut
or
AIV
S 67
0-…
AVA
670
-…
DRM
612
-…
CO
M 6
11-…
/ EC
602
-…
ZWA
640
-…
DSC
602
-0
PME
600-
…
Siedle Vario Basic circuit diagram (Video) 70 • • •
Potential-free door release work contact A2 72 • • •
Potential-free door release changeover contact A3 74 • • •
Additional power supply 76 • • •
Pilfer safeguard 78 • • • •
Video decoupler (camera in switching operation) 80 • • • •
Video decoupler (camera in continuous operation) 82 • • • •
External camera 84 • • • •
External camera and video decoupler 86 • • • • •
Code lock module as access control and direct dial 88 • • • •
Display call module 90 • • • • •
2 door stations/display call modules 92 • • • • •
Radio chime 94 • • •
Basic circuit diagram (Audio) 96 • •
Access custom-fit door loud-speaker
Access camera module 98 • • • •
External camera 100 • • • •
Basic circuit diagram (Audio) 102 • •
Siedle Classic Wiring diagram for call buttons 104
Basic circuit diagram (Video) 106 • • •
Video decoupler (camera in continuous operation) 108 • • • •
2 mail notification systems 110 • • • •
Code lock module as access control and direct dial 112 • • • •
Siedle Steel Basic circuit diagram (Video) 114 • • •
Video decoupler (camera in continuous operation) 116 • • • •
2 mail notification systems 118 • • • •
Code lock module as access control and direct dial 120 • • • •
Flush mounted camera 122 • • •
Display call module 124 • • • • •
Camera connection
External camera with video distributor 126 • • • •
External camera 128 • • •
Storey call button
Customer-side signalling device130
68
8 Access circuit diagrams Switching outputs/inputs
Model Number of switching outputs Number of switching inputs
Indoor stations Standard max. fully extended system
Standard max. fully extended system
AHF/AHFV/AHT/AHTV/AVP 1 2 1 2
Fully extended system with max. 1 extension (AZIO) per indoor station 1 - 1 -
Door controller
ATLC/NG 670-0 3 15 1/1 7/7
ATLCE extension 4 - 2/2 -
Fully extended system with max. 3 extensions (ATLCE) per ATLC 12 - 6/6 -
Device type Switching outputs
A1 A2 A3 A4
Indoor stationsAHF/AHFV/AHT/AHTV/AVP
N.O. contact 30 V, 1 ATerminals (4, 5)
- - -
Indoor stationsExtension AZIO
- N.O. contact 30 V, 1 ATerminals (7, 8)
- -
Door controllerATLC
Prog. door release output10-16 V AC, max. 700 mA13 V DC, max. 300 mATerminals (23, 24)
N.O. contact 30 V, 2 ATerminals (13, 14)
Changeover contact 250 V, 6 ATerminals (11, 12, 14)
-
Door controller extensionATLCE
Changeover contact 30 V, 2 ATerminals (11, 12, 14)
Changeover contact 30 V, 2 ATerminals (21, 22, 24)
N.O. contact 30 V, 2 ATerminals (31, 34)
N.O. contact 30 V, 2 ATerminals (41, 44)
The number of switching outputs and inputs can be extended for each indoor station and each door controller. The following list contains the as-delivered status and the max-imum full extension per device type.
69
Device type Switching inputs
E1 E2
Indoor stationsAHF/AHFV/AHT/AHTV/AVP
Potential-free contactmin. 20 V DC, 10 mATerminals (3, 6)Storey call button (ERT)
- - -
Indoor station upgrade AZIO - Potential-free contactmin. 20 V DC, 10 mATerminals (1, 2)
-
Door controllerATLC
Potential-free contactmin. 20 V DC, 10 mATerminals (15, 16)
Galvanically iso-latedmax. 4-30 V DC, 10 mATerminals (17, 18)
- -
Door controller extensionATLCE
Potential-free contactmin. 20 V DC, 10 mATerminals (15, 16)
Galvanically iso-latedmax. 4-30 V DC, 10 mATerminals (17, 18)
Potential-free contactmin. 20 V DC, 10 mATerminals (25, 26)
Galvanically iso-latedmax. 4-30 V DC, 10 mATerminals (27, 28)
The Siedle Access device log is avail-able for commissioning support and documenting the switching outputs and inputs used.The Siedle Access device log can be found in the Siedle download area/as a supplement for each of the network-capable Access compo-nents at www.siedle.com
70
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1N
AC
M
ATL
C 6
70-.
..A
NG
600
-...
LAN
a)m
)b1
Sied
le V
ario
AC
M 6
73-.
..A
TLM
670
-...
BTM
650
-...
IN
Rem
arks
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
230 V AC
8.1 Siedle Vario Basic circuit diagram (Video)
71
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
72
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
AC
M 6
73-.
..
ATL
M
BTM
13 14 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1
230 V AC
N
AC
M
ATL
C 6
70-.
..A
NG
600
-...
LAN
a)
b1
A2
m)
IN
Rem
arks
Dev
ice
requ
irem
ent
Pote
ntia
l-fre
e co
ntac
tD
oor
rele
ase
actu
atio
nm
ax. 3
0 V
AC
/DC
, 2 A
e.g.
for
exi
stin
g ac
cess
con
trol
or
doo
r re
leas
e on
site
8.1 Siedle Vario Potential-free door release work contact A2
73
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the door release switching output A1 (ATLC terminals 23, 24) is described in the video basic circuit diagram.(For detailed information, see page 70)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
74
A3
14 11 12
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
AC
M 6
73-.
..
ATL
M
BTM
V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1
230 V AC
N
AC
M
ATL
C 6
70-.
..A
NG
600
-...
LAN
a)
b1
m)
IN
Rem
arks
Dev
ice
requ
irem
ent
Pote
ntia
l-fre
e co
ntac
tm
ax. 2
50 V
AC
/DC
, 6 A
e.g.
for
exi
stin
g ac
cess
con
trol
or
doo
r re
leas
e on
site
8.1 Siedle Vario Potential-free door release changeover contact A3
75
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the door release switching output A1 (ATLC terminals 23, 24) is described in the video basic circuit diagram.(For detailed information, see page 70)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
76
8.1 Siedle Vario Additional power supply
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
AC
M 6
73-.
..
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bb1
V2
V1
V4
V3
L1
230 V AC
NN
L1c b
230 V AC
AC
M
ATL
C 6
70-.
..A
NG
600
-...
LAN
TR 6
03-.
..
a)g)
, k)
c
IN
Rem
arks
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
77
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams. (For detailed information, see page 72, 74)
g) Is only required if more than 10 BTM 650-… units are installed at this door station.
k) If the BTM 650-… units are sup-plied via a separate transformer, no connection between c1 and c / b1 and b may exist at the ATLM 670-… terminal block.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)
78
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
AC
M 6
73-.
..
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1
230 V AC
NN
L1c b
230 V AC
AC
M
ATL
C 6
70-.
..A
NG
600
-...
LAN
TR 6
03-.
..
c b M1
M2
DSC
602
-...
a)m
)b1
bl
bl
gr
gr
IN
Rem
arks
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
8.1 Siedle Vario Pilfer safeguard
79
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
80
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
AC
M 6
73-.
..
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V3
V6
V5
L/S
V4
+ -
V1I
V2I
V1O
V2O
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1
230 V AC
N
AC
M
ATL
C 6
70-.
..A
NG
600
-...
AVA
670
-...
LAN
b1
Koa
x
a)m
)
IN
Dev
ice
requ
irem
ent
Rem
arks
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
8.1 Siedle Vario Video decoupler (camera in switching operation)
81
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
82
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
AC
M 6
73-.
..
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V3
V6
V5
L/S
V4
+ –
V1I
V2I
V1O
V2O
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1
230 V AC
N
AC
M
ATL
C 6
70-.
..A
NG
600
-...
AVA
670
-...
LAN
b1
Koa
x
a)c)
, m)
IN
Dev
ice
requ
irem
ent
Rem
arks
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
8.1 Siedle Vario Video decoupler (camera in continuous operation)
83
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
c) The camera used must be suitable for continuous operation. Alternatively, the camera must be used in switching operation. (For detailed information, see page 80)• In addition, the camera should only be used in continuous opera-tion within its permitted operating parameters (e.g. ambient tempera-ture).(For detailed information, see page 24)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
84
8.1 Siedle Vario External camera
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
ATL
M
BTM
L/S + -
+ -
N L1+ -
L/S
V6
23 24
V5
V4
V1
V3
V2
b1c1 cbV6
V5
V2
V1
S4 D2
D1
D2
D1
S1 S3S2
S4S1 S3S2
ATL
C 6
70-…
AN
G 6
00-…
CE
600-
…A
IVS
670-
...
b)
230 V AC
N L1
230 V AC
LAN
a)
NG
602
-…
j)w
)
IN
Rem
arks
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö)12
V A
C/D
Cm
in. 2
0 O
hm
85
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
b) Distance between the camera and AIVS 670-… max. 10 m
j) Where there are more than 26 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
w) Separate power supply required.
86
8.1 Siedle Vario External camera and video decoupler
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
ATL
M
BTM
L/S + -
N L1+ -
L/S
V6
23 24
V5
V4
V1
V3
V2
cb V6
V5
V2
V1
S4 D2
D1
D2
D1
S1 S3S2
S4S1 S3S2
ATL
C 6
70-…
AN
G 6
00-…
CE
600-
…A
IVS
670-
...
b)
LAN
a)
AVA
670
-…
V1I
V2I
V1O
V2O
V6
V5
V4
V3
b1c1
+ -
L/S
NG
602
-…
N L1
w)
j)
IN
Dev
ice
requ
irem
ent
Rem
arks
Supp
ly v
olta
ge
48 V
DC
!C
oaxi
al
conn
ectio
nL
= le
adS
= s
hiel
d
230 V AC
230 V AC
Doo
r re
leas
e (T
ö)
12 V
AC
/DC
min
. 20
Ohm
87
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
b) Distance between the camera and AIVS 670-… max. 10 m
j) Where there are more than 26 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
w) Separate power supply required.
88
8.1 Siedle Vario Code lock module as access control and direct dial
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..C
OM
611
-...
AC
M 6
73-.
..
ATL
M
BTM
14 13
W2
V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
Da
Db
bcb
v
S2V2
S1V1 c1 c b
Da
W0
Db cv bv
b1
V2
V1
V4
V3
N L1N L1
230 V AC
230 V AC
AC
M
ATL
C 6
70-.
..A
NG
600
-...
TR 6
02-.
..EC
602
-...
LAN
cvC
OM
a)m
), o
)
TR 6
03-.
..
b c
r)t)
IN
Büch
ner
Cla
udia
Mai
er K
laus
Schu
hmac
her
Bern
dN
amen
such
e m
it
Rem
arks
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
89
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
o) The COM 611-… code lock module is always available for making calls (direct dial via numeric code).Together with the EC 602-… easikey controller, additional control func-tions (e.g. access control) can be car-ried out for this door station.
r) To ensure smooth operation, the COM 611-… code lock module and the EC 600-… easikey controller must be supplied with their own power supply.
t) If only control functions (access control) are run, the Da/Db terminals of the COM 611-… and EC 600-… must be connected directly to one another (without connection to D1/D2). Only in this case may the COM 611-…/ EC 600-… of the var-ious door stations be interconnected to a group. If no control functions are needed, then the COM 611-… code lock module can also be used without the EC 600-… easikey controller.
90
8.1 Siedle Vario Display call module
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..D
RM 6
12-.
..
AC
M 6
73-.
..
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
Da
Db
W5
W6
bvS2V2
S1V1 c1 c bb1
V2
V1
V4
V3
N L1
230 V AC
AC
M
ATL
C 6
70-.
..A
NG
600
-...
N L1
230 V ACTR
603
-...
LAN
cvbc
W3
W4
DRM
a)n)
g),
m)
ZWA
640
-...
IN
Büch
ner
Cla
udia
Schu
hmac
her
Mic
hael
Nam
ensu
che
mit
OK
Mai
er K
laus
Büch
ner
Cla
udia
Schu
hmac
her
Mic
hael
Nam
ensu
che
mit
OK
Mai
er K
laus
Rem
arks
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
91
Notes on the circuit diagramThe wiring of 2 door stations with a display call module each is described in a separate diagram(For detailed information, see page 92)
a) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams. (For detailed information, see page 72, 74)
g) To ensure smooth operation, the DRM 612-… display call module must be supplied with its own power supply.
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
n) For programming the names, pro-gramming software PRS 602-… and programming interface PRI 602-… are required. The names are now entered in the display call module using the PRS 602-… • The PRI 602-… is supplied via the power supply connected to the ZWA 640-…, (terminals W3/W4).
92
8.1 Siedle Vario 2 door stations/display call modules
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..D
RM 6
12-.
..
AC
M 6
73-.
..
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
Da
Db
W5
W6
bvS2V2
S1V1 c1 c bb1
V2
V1
V4
V3
N L1
AC
M
ATL
C 6
70-.
..A
NG
600
-...
N L1
TR 6
03-..
.
cv
bc
W3
W4
DRM
a)n)
g),
m)
ZWA
640
-...
IN
Büch
ner
Cla
udia
Schu
hmac
her
Mic
hael
Nam
ensu
che
mit
OK
Mai
er K
laus
Büch
ner
Cla
udia
Schu
hmac
her
Mic
hael
Nam
ensu
che
mit
OK
Mai
er K
laus
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..D
RM 6
12-.
..
AC
M 6
73-.
..
23 24 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
Da
Db
W5
W6
bvS2V2
S1V1 c1 c bb1
V2
V1
V4
V3
N L1
ATL
C 6
70-.
..A
NG
600
-...
N L1
TR 6
03-..
.
cv
bc
W3
W4
a)n)
g),
m)
ZWA
640
-...
LAN
Büch
ner
Cla
udia
Schu
hmac
her
Mic
hael
Nam
ensu
che
mit
OK
Mai
er K
laus
LAN
PRI
PRI
Rem
arks
Dev
ice
requ
irem
ent
Doo
r st
atio
n 1
Doo
r st
atio
n 2
230 V AC
230 V AC
230 V AC
230 V AC
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
93
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
g) To ensure smooth operation, the DRM 612-… display call module must be supplied with its own power supply.
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
n) For programming the names, pro-gramming software PRS 602-… and programming interface PRI 602-… are required. The names are now entered in the display call module using the PRS 602-… • The PRI 602-… is supplied via the power supply connected to the ZWA 640-…, (terminals W3/W4).
In the case of several door stations, the wiring of one door station must not be connected to the wiring of another door station (bridged).
94
8.1 Siedle Vario Radio chime
c b N L1
Sied
le V
ario
TR 6
03-.
..
ATL
M 6
70-.
..BT
M 6
50-.
..
AC
M 6
73-.
..
ATL
M
BTM
23 24 V1
D2
S2S1 S3 D1
S4V2
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1N
AC
M
ATL
C 6
70-.
..A
NG
600
-...
LAN
a)m
)b1
45
IN/O
UT
36
RJ45
8/8
G D
LAN
AH
FV 8
70-…
AH
TV 8
70-…
AV
P 87
0-…
u)u)
RTS1
7
230 V AC
230 V AC
IN
Rem
arks
Dev
ice
requ
irem
ent
Tele
com
soc
ket
Radi
o tr
ansm
itter
Stor
ey c
all b
utto
n
Doo
r re
leas
e (T
ö)12
V A
C/D
C m
in. 2
0 O
hm
95
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams. (For detailed information, see page 72, 74)
m) Where there are more than 10 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply. The jumpers for the ACM camera module between the terminals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
u) To use the RTS17 radio trans-mitter, the secondary signal unit aux-iliary script must be imported into the Access server and the affected indoor station must be configured. Incoming calls are signalled on the indoor station and on the plug-in socket pager.
96
8.1 Siedle Vario Basic circuit diagram (Audio)
Sied
le V
ario
ATL
M 6
70-.
..BT
M 6
50-.
..
ATL
M
BTM
N111214 L1
23 24
c1b1 bc
S4 D2
D1
D2
D1
S1 S3S2
S4S1 S3S2
ATL
C 6
70-.
..A
NG
600
-...
230 V AC
LAN
a)j)
IN
Rem
arks
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
97
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
j) Where there are more than 26 BTM 650-… units, an addi-tional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers on the ATLM are removed from b1/c1 to b/c and the b/c terminals are directly connected to the additional supply.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
98
8.2 Access custom-fit door loudspeaker Access camera module
ATL
E
BRM
A
ATL
C 6
70-.
..
6 7.1
7.2
7.3
7.11
230 V AC
N L1
AN
G 6
00-.
..
7.12
V6
23 24
V5
D2
S2S1 D1
S4S3
V5
V4
V1
V3
c1b1
V2
V2
V1
S4 D2
D1
S1 S3S2
LAN
a)d)
AC
M 6
73-.
..
IN
Dev
ice
requ
irem
ent
Rem
arks
Cus
tom
-fit
door
loud
spea
ker
ATL
E 67
0-...
BRM
A 0
50-.
..
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
99
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
d) A maximum of 12 call but-tons can be connected at one BRMA 050-…The maximum configuration is 16 BRMA 050-… units/192 buttons.
100
8.2 Access custom-fit door loudspeaker External camera
ATL
E
BRM
A
b)
ATL
C 6
70-.
..
c1 6 7.1
7.2
7.3
7.11
L/S + -
230 V AC
N L1
AN
G 6
00-.
..
+ -
L/S
7.12
V6
23 24
V5
D2
S2S1 D1
S4S3
V5
V4
V1
V3
V2
V2
V1
S4 D2
D1
S1 S3S2
CE
600-
…A
IVS
670-
...
LAN
a)d)
+ - N L1
230 V ACN
G 6
02-…
w)
IN
Dev
ice
requ
irem
ent
Rem
arks
Cus
tom
-fit
door
loud
spea
ker
ATL
E 67
0-...
BRM
A 0
50-.
..
Doo
r re
leas
e (T
ö)
12 V
AC
/DC
min
. 20
Ohm
101
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
b) Distance between the camera and AIVS 670-… max. 10 m
d) A maximum of 12 call but-tons can be connected at one BRMA 050-…The maximum configuration is 16 BRMA 050-… units/192 buttons.
w) Separate power supply required.
102
8.2 Access custom-fit door loudspeaker Basic circuit diagram (Audio)
ATL
E
BRM
A
ATL
C 6
70-.
..
6 7.1
7.2
7.3
7.11
230 V AC
N L1
AN
G 6
00-.
..
7.12
23 24
D2
S2S1 D1
S4S3
S4 D2
D1
S1 S3S2
LAN
d)a)
IN
Rem
arks
Acc
ess
cust
om-fi
t do
or lo
udsp
eake
rA
TLE
670-
...BR
MA
050
-...
Dev
ice
requ
irem
ent
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
103
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
d) A maximum of 12 call but-tons can be connected at one BRMA 050-…The maximum configuration is 16 BRMA 050-… units/192 buttons.
104
ACM
ATLE
BRMA
Tö 12 V ACmin. 20 Ohm
ATLC 670-...
c1
6
7.1
7.2
7.3
7.11
230
V A
C
N
L1
ANG 600-...
+-
7.12
V2
23
24
V5
D2
S2
S1
D1
S4
S3
V1
V4
V5
V3
V6
V2
V1
S4
D2
D1
S1
S3
S2
LAN
a)d)
IN
Gerätebedarf
Hinweise
Classic TürstationACM 670-...ATLE 670-...BRMA 050-...
l), q) y)Remarks
8.3 Siedle Classic Wiring diagram for call buttons
105
Notes on the circuit diagraml) The internal wiring of the Classic door station is completed on site by the customer.
q) Where there are more than 20 backlit call buttons, an additional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers between the CATLE and the call but-tons from b1/c1 to b/c are removed and the b/c terminals are directly connected to the additional supply. The jumpers from the ACM camera module to CATLE between the ter-minals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)
y) The circuit diagram shows an exemplary connection of call buttons with the BRMA.• The call button modules come in designs with 1, 2, 3 and 4 buttons. On all call button modules with more than one button, all terminals 6… are internally bridged on the call button module. The jumpers can be removed if required.• If more than 4 call buttons are required, the call button modules are cascaded accordingly (e.g. 7 call buttons = call button module with 4 and 3 call buttons).• If there is more than one call button module, then at least one of the terminal 6… must be connected straight through between all call button modules.
Call button module
Button Terminal designations for the button
Button back-lighting
1 Button 1 6 7 b, c
2 Buttons 1 6.1 7.1 b, c
2 6.2 7.2
3 Buttons 1 6.1 7.1 b, c
2 6.2 7.2
3 6.3 7.3
4 Buttons 1 6.1 7.1 b, c
2 6.2 7.2
3 6.3 7.3
4 6.4 7.4
Example: In the case of 7 call but-tons, terminal 6.1 of the first call button module is bridged with ter-minal 6.1 of the second call button (see wiring diagram). Terminals 6… are bridged with one another on each call button module and do not need to be additionally wired/bridged (exception: A button is used independently as a potential-free contact and the jumpers have been disconnected).
106
ACM
ATLE
BRMA
Tö 12 V ACmin. 20 Ohm
ATLC 670-...
c1
6
7.1
7.2
7.3
7.11
230
V A
C
N
L1
ANG 600-...
+-
7.12
V2
23
24
V5
D2
S2
S1
D1
S4
S3
V1
V4
V5
V3
V6
V2
V1
S4
D2
D1
S1
S3
S2
LAN
a)d)
IN
Gerätebedarf
Hinweise
Classic TürstationACM 670-...ATLE 670-...BRMA 050-...
CA
CM
CA
TLE
BRM
A
ATL
C 6
70-.
..
c1 6 7.1
7.2
7.3
7.11
230 V AC
N L1
AN
G 6
00-.
..
b1
7.12V2
23 24
V5
D2
S2S1 D1
S4S3V1
V4
V6
V3
V5
V2
V1
S4 D2
D1
S1 S3S2
LAN
a)
Sied
le C
lass
icC
AC
M 6
73-.
..C
ATL
E 67
0-...
BRM
A 0
50-.
..
l), q
)
Sied
le C
lass
ic
y)
IN
Dev
ice
requ
irem
ent
Rem
arks
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
Cal
l but
tons
8.3 Siedle Classic Basic circuit diagram (Video)
107
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
l) The internal wiring of the Classic door station is completed on site by the customer.• The connection of the call button modules is described in a separate diagram. (For detailed information, see page 104)
q) Where there are more than 20 backlit call buttons, an additional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers between the CATLE and the call but-tons from b1/c1 to b/c are removed and the b/c terminals are directly connected to the additional supply. The jumpers from the ACM camera module to CATLE between the ter-minals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
y) The circuit diagram shows an exemplary connection of call buttons with the BRMA.• (For detailed information, see page 105)
108
8.3 Siedle ClassicVideo decoupler (camera in continuous operation)
Sied
le C
lass
ic
CA
TLE
670-
...BR
MA
050
-...
CA
CM
673
-...
CAT
LE
BRM
A
23 24V1
D2
S2S1 S3 D1
S4V2
V3
V6
V5
L/S
V4
+ –
V1I
V2I
V1O
V2O
V5
V6
V5
S4S3 D2
D1
S2V1
S1V2 c1V4
V3
L1
230 V AC
N
ATL
C 6
70-.
..A
NG
600
-...
AVA
670
-...
LAN
b1
Koa
x
a)i),
q)
CA
CM
6 7.1
7.2
7.3
7.11
7.12
y)Sied
le C
lass
ic
IN
Dev
ice
requ
irem
ent
Rem
arks
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
Cal
l but
tons
109
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
i) The camera used must be suitable for continuous operation. Alternatively, the camera must be used in switching operation.• In addition, the camera should only be used in continuous opera-tion within its permitted operating parameters (e.g. ambient tempera-ture).(For detailed information, see page 24)
q) Where there are more than 20 backlit call buttons, an additional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers between the CATLE and the call but-tons from b1/c1 to b/c are removed and the b/c terminals are directly connected to the additional supply. The jumpers from the ACM camera module to CATLE between the ter-minals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(Examples: For detailed information, see page 76)
y) The circuit diagram shows an exemplary connection of call buttons with the BRMA.• (For detailed information, see page 105)
110
8.3 Siedle Classic 2 mail notification systems
ACM
ATLE
BRMA
Tö 12 V ACmin. 20 Ohm
ATLC 670-...
c1
6
7.1
7.2
7.3
7.11
230
V A
C
N
L1
ANG 600-...
+-
7.12
V2
23
24
V5
D2
S2
S1
D1
S4
S3
V1
V4
V5
V3
V6
V2
V1
S4
D2
D1
S1
S3
S2
LAN
a)d)
IN
Gerätebedarf
Hinweise
Classic TürstationACM 670-...ATLE 670-...BRMA 050-...
ACM
ATLE
BRMA
Tö 12 V ACmin. 20 Ohm
ATLC 670-...
c1
6
7.1
7.2
7.3
7.11
230
V A
C
N
L1
ANG 600-...
+-
7.12
V2
23
24
V5
D2
S2
S1
D1
S4
S3
V1
V4
V5
V3
V6
V2
V1
S4
D2
D1
S1
S3
S2
LAN
a)d)
IN
Gerätebedarf
Hinweise
Classic TürstationACM 670-...ATLE 670-...BRMA 050-...
CA
CM
CA
TLE
BRM
A
ATL
C 6
70-.
..
c1 6 7.1
7.2
7.3
7.11
230 V AC
N L1
AN
G 6
00-.
..
b1
7.12V2
23 24V
5
D2
S2S1 D1
S4S3V1
V4
V6
V3
V5
V2
V1
S4 D2
D1
S1 S3S2
LAN
a)
Sied
le C
lass
icC
AC
M 6
73-.
..C
ATL
E 67
0-...
BRM
A 0
50-.
..
l), q
)
ATL
CE
670-
...
1615
1615
PME
600-
...PM
E 60
0-...
1615
1615 bc
bc
x)x)
230 V AC
N L1bc
TR 6
03-.
..
w)
Sied
le C
lass
ic
y)
IN
Dev
ice
requ
irem
ent
Rem
arks
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
Cal
l but
tons
111
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
l) The internal wiring of the Classic door station is completed on site by the customer.The connection of the call button modules is described in a separate diagram. (For detailed information, see page 104)
q) Where there are more than 20 backlit call buttons, an additional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers between the CATLE and the call but-tons from b1/c1 to b/c are removed and the b/c terminals are directly connected to the additional supply. The jumpers from the ACM camera module to CATLE between the ter-minals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(For detailed information, see page 76)
w) Separate power supply required.
x) A separate potential-free switching input is required for each mail notification system. You must configure each switching input in the Access administration interface. You can run up to 7 mail notifica-tion systems with the fully extended system (1 ATLC and 3 ATLCEs).
y) The circuit diagram shows an exemplary connection of call buttons with the BRMA.• (For detailed information, see page 105)
112
8.3 Siedle Classic Code lock module as access control and direct dial
Sied
le C
lass
ic
CA
TLE
670-
...BR
MA
050
-...
CO
M 6
11-.
..
CA
CM
673
-...
CA
TLE
BRM
A
14 13
W2
V1
D2
S2S1 S3 D1
S4V2
c1V5
V5
V6
S4S3 D2
D1
Da
Db
bcb
vS2V1
S1V2
b1
Da
W0
Db cv bv
V4
V3
N L1N L1
230 V AC
230 V AC
CA
CM
ATL
C 6
70-.
..A
NG
600
-...
TR 6
02-.
..EC
602
-...
LAN
cvC
OM
a)o)
, q)
TR 6
03-.
..
b c
r)t)
7.3
7.2
7.117.16
7.12
Sied
le C
lass
ic
y)
IN
Rem
arks
Device
requ
iremen
t
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
Cal
l but
tons
113
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
o) The COM 611-… code lock module is always available for making calls (direct dial via numeric code).Together with the EC 602-… easikey controller, additional control func-tions (e.g. access control) can be car-ried out for this door station.
q) Where there are more than 20 backlit call buttons, an additional 12 V AC supply, for instance TR 603-…, must be installed due to the current consumption. To use the additional supply, the jumpers between the CATLE and the call but-tons from b1/c1 to b/c are removed and the b/c terminals are directly connected to the additional supply. The jumpers from the ACM camera module to CATLE between the ter-minals V3/V4 and the terminals b1/c1 remain as they are.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of an additional power supply is described in a separate diagram.(Examples: For detailed information, see page 76)
r) To ensure smooth operation, the COM 611-… code lock module and the EC 600-… easikey controller must be supplied with their own power supply.
t) If only control functions (access control) are run, the Da/Db terminals of the COM 611-… and EC 600-… must be connected directly to one another (without connection to D1/D2). Only in this case may the COM 611-…/ EC 600-… of the var-ious door stations be interconnected to a group. If no control functions are needed, then the COM 611-… code lock module can also be used without the EC 600-… easikey controller.
y) The circuit diagram shows an exemplary connection of call buttons with the BRMA.• (For detailed information, see page 105)
114
Siedle Steel
SATLM 670-...SACM 673-...
SATLM
23
24
V1
D2
S2
S1
S3
D1
S4
V2
S4
S3
D2
D1
S2
S1
V2
V1
N
L1
230
V A
C
SACM
ATLC 670-...ANG 600-...
LAN
a)Remarks
Devicerequirement
Buttons
Door release (Tö) 12 V AC/DCmin. 20 Ohm
8.4 Siedle Steel Basic circuit diagram (Video)
115
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
116
8.4 Siedle Steel Video decoupler (camera in continuous operation)
Sied
le S
teel
SATL
M 6
70-.
..SA
CM
673
-...
SATL
M
23 24 V1
D2
S2S1 S3 D1
S4V2
V3
V6
V5
L/S
V4
+ –
V1I
V2I
V1O
V2O
V5
V6
V6
V5
S4S3 D2
D1
S2V2
S1V1 c1 bc V2
V1
V4
V3
L1
230 V AC
N
ATL
C 6
70-.
..A
NG
600
-...
AVA
670
-...
LAN
b1
Koa
x
a)i),
z)
SAC
M
Dev
ice
requ
irem
ent
Rem
arks
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
Butt
ons
117
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of the potential-free switching outputs is described in separate diagrams.(Examples: For detailed information, see page 72, 74)
i) The camera used must be suitable for continuous operation. Alternatively, the camera must be used in switching operation.• In addition, the camera should only be used in continuous opera-tion within its permitted operating parameters (e.g. ambient tempera-ture).(For detailed information, see page 24)
z) Before wiring, the 6-pole ribbon cable between the connection pcb SACM and the connection pcb SATLM must be removed.
118
8.4 Siedle Steel 2 mail notification systems
SAC
M
ATL
C 6
70-.
..
230 V AC
N L1
AN
G 6
00-.
..
V2
23 24
D2
S2S1 D1
S4S3V1
V2
V1
S4 D2
D1
S1 S3S2
LAN
a)
Sied
le S
teel
SAC
M 6
73-.
..SA
TLM
670
-...
ATL
CE
670-
...
1615
1615
PME
600-
...PM
E 60
0-...
1615
1615 bc
bc
x)x)
230 V AC
N L1bc
TR 6
03-.
..
w)
SATL
M
Dev
ice
requ
irem
ent
Rem
arks
Butt
ons
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
119
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
w) Separate power supply required.
x) A separate potential-free switching input is required for each mail notification system.• You must configure each switching input in the Access administration interface.• You can run up to 7 mail notifica-tion systems with the fully extended system (1 ATLC and 3 ATLCEs).
120
8.4 Siedle Steel Code lock module as access control and direct dial
Sied
le S
teel
SATL
M 6
70-.
..C
OM
611
-...
SAC
M 6
73-.
..
SATL
M
14 13
W2
V1
D2
S2S1 S3 D1
S4V2
S4S3 D2
D1
Da
Db
bcb
vS2V1
S1V2
Da
W0
Db cv bv
N L1N L1
230 V AC
230 V AC
SAC
M
ATL
C 6
70-.
..A
NG
600
-...
TR 6
02-.
..EC
602
-...
LAN
cvC
OM
a)o)
TR 6
03-.
..
b c
r)t)
Rem
arks
Device
requ
iremen
t
Butt
ons
Doo
r re
leas
e (T
ö) 1
2 V
AC
/DC
min
. 20
Ohm
121
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
o) The COM 611-… code lock module is always available for making calls (direct dial via numeric code).Together with the EC 602-… easikey controller, additional control func-tions (e.g. access control) can be car-ried out for this door station.
r) To ensure smooth operation, the COM 611-… code lock module and the EC 600-… easikey controller must be supplied with their own power supply.
t) If only control functions (access control) are run, the Da/Db terminals of the COM 611-… and EC 600-… must be connected directly to one another (without connection to D1/D2). Only in this case may the COM 611-…/ EC 600-… of the var-ious door stations be interconnected to a group. If no control functions are needed, then the COM 611-… code lock module can also be used without the EC 600-… easikey controller.
122
SATL
M
ATL
C 6
70-.
..
N L1
AN
G 6
00-.
..
+ -
N L1
TR 6
03-.
..
b c
23 24
D2
S2S1 D1
S4S3cb V4
V1
V3
V2
V2
V1
S4 D2
D1
S1 S3S2
AIV
SE
LAN
SVTM
C
Sied
le S
teel
SVTM
C 6
40-.
.. +
AIV
SE 6
70-…
SATL
M 6
70-.
..
a)
Dev
ice
requ
irem
ent
230 V AC
230 V AC
Rem
arks
Doo
r rel
ease
12
V A
C/D
Cm
in. 2
0 O
hm
Butt
ons
8.4 Siedle Steel Flush mounted camera
123
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
124
SATLM
ATLC 670-...
N
L1
ANG 600-...
N
L1
TR 603-...
c
b
23
24
D2
S2
S1
D1
S4
S3
V1
V2 V2
V1
S4
D2
D1
S1
S3
S2
LAN
SACM
Siedle SteelSACM 673-...SATLM 670-...SDRM 612-...
SDRM W4
W3
W6
W5
PRI
Da
Db
cv
bv
ZWA 640-...
g) a)n)
Büchner Claudia
Schuhmacher Michael
Namensuche mit
OK
Maier Klaus
Büchner Claudia
Schuhmacher Michael
Namensuche mit
OK
Maier Klaus
Devicerequirement
230
V A
C
230
V A
C
Remarks
Door release (Tö) 12 V AC/DCmin. 20 Ohm
8.4 Siedle Steel Display call module
125
Notes on the circuit diagrama) If door releases or gate control systems are fitted and their con-nected values do not correspond to 12 V AC/DC and min. 20 Ohm, then either switching output 2 (ATLC ter-minals 13/14 (output)) or switching output 3 (ANG terminals 11/12/14 (output)) can be used as a potential-free door release contact.To use switching output 2 or 3 as a potential-free door release contact, you must configure the corre-sponding ATLC switching output in the Access administration interface.• Supply limits ATLC/NG 670-… (For detailed information, see page 9)• The use of the potential-free switching outputs is described in separate diagrams.(For detailed information, see page 72, 74)
g) To ensure smooth operation, the DRM 612-… display call module must be supplied with its own power supply.
n) For programming the names, pro-gramming software PRS 602-… and programming interface PRI 602-… are required. The names are now entered in the display call module using the PRS 602-… • The PRI 602-… is supplied via the power supply connected to the ZWA 640-…, (terminals W3/W4).
126
y)p)
ATL
C 6
70-.
..
L/S
E D A
+ -
+ -
230 V AC
N L1
AN
G 6
00-.
..
230 V AC
N L1
NG
602
-...
+ -
L/S
V5
V6
V4
V1
V3
V2
V2
V1
CE
600-
...A
IVS
670-
...
LAN
Vid
eo
Rem
arks
Dev
ice
requ
irem
ent
Vid
eo
dist
ribut
or
8.5 Camera connection External camera with video distributor
127
FunctionalViewing/monitoring a certain area using an Access indoor call station set up for the purpose.Each camera is specifically selected via the ATLC 670-… The number of cameras/Access users is limited by the server used.Using the buttons defined during configuration, each camera can be selected. This function must be con-figured for every authorized user.The video signal is split using the video distributor supplied by the cus-tomer. This allows the signal to be shown on a continuous surveillance monitor and also on an event-con-trolled basis on an assigned Access indoor device.Terminal assignment of the video distributor provided by the customer: E = Input D = Throughput A = Output
Notes on the circuit diagramp) Camera in continuous operationThe camera used must be suit-able for continuous operation. Alternatively, the camera must be used in switching operation. (For detailed information, see page 80)• In addition, the camera should only be used in continuous opera-tion within its permitted operating parameters (e.g. ambient tempera-ture).(For detailed information, see page 24)
y) Distance between the camera and AIVS 670-… max. 10 m
128
8.5 Camera connection External camera
p)y)
ATL
C 6
70-.
..
L/S + -
+ -
230 V AC
N L1
AN
G 6
00-.
..
230 V AC
N L1
NG
602
-...
+ -
L/S
V5
V6
V4
V1
V3
V2
V2
V1
CE
600-
...A
IVS
670-
...
LAN
Rem
arks
Dev
ice
requ
irem
ent
129
FunctionalViewing/monitoring a certain area using an Access indoor call station set up for the purpose.Each camera is specifically selected via the ATLC 670-… The number of cameras/Access users is limited by the server used.Using the buttons defined during configuration, each camera can be selected. This function must be con-figured for every authorized user.
Notes on the circuit diagramp) Camera in continuous operationThe camera used must be suit-able for continuous operation. Alternatively, the camera must be used in switching operation. (For detailed information, see page 80)• In addition, the camera should only be used in continuous opera-tion within its permitted operating parameters (e.g. ambient tempera-ture).(For detailed information, see page 24)
y) Distance between the camera and AIVS 670-… max. 10 m
130
8.6 Storey call button Customer-side signalling device
4
5
RJ45 8/8
LAN
e)
ERT3
6
Remarks
Devicerequirement
RJ45 8/8
LAN
ERT3
6
4
5
1
2
7
8
e), f)Remarks
Devicerequirement
Notes on the circuit diagrame) A suitable intermediate relay may be required for the customer’s own existing signalling device.
f) By mounting accessory AZIO 870-… terminals 1 and 2 as well as 7 and 8 of the right-hand RJ45 telecom socket are occupied, as listed in the terminal assignment. The terminal assignment changes if a different accessory is mounted.
Terminal assignment RJ45
Left RJ45 socket
1–8 LAN (Access)
Right RJ45 socket
3, 6 Storey call button ERT
4, 5 switching contact 30 V AC/DC, 1 A
1, 2 input via potential-free contact
7, 8 switching contact 30 V AC/DC, 1 A
131
An indoor device may only be con-nected to the network using an RJ45 8/8 (8) network socket or RJ45 socket modules 8(8).
The connection between the junc-tion box and the circuit board of the indoor station is established with the RJ45 connectors included in the scope of supply.First connect the RJ45 plug with the circuit board and then with the junc-tion box.
132
Commissioning Coordination/initial commissioning of an Access system should be performed by Siedle or an Access Certified Partner. The system must be ready installed, documented and made ready for operation (see com-missioning requirements) by the date of commissioning.Access to all parts of the system must be guaranteed, the system administrator must be available. Commissioning is performed against a charge. The relevant charging rates are shown in the quotation/the com-missioning form sheet.The Access system is configured using a computer running the cur-rent Firefox browser on the Access server. The necessary configuration is carried out directly on the Access server using the web user interface. Any necessary support for configura-tion-related questions can be found in the commissioning instructions or the Access help function. Careful documentation of the system and any configuration-related require-ments with an indication of the device mounting locations are par-ticularly helpful and should be made a constituent part of the operating manual without fail.
Commissioning requirements Installation• The installation complies with structured cabling requirements as outlined in DIN 50173-1/2/3/4. A suitable network plan is provided• All necessary network connections are available• The cabling complies with at least Category 5
Network requirements: • Separate physical network or VLAN with quality of service (IEEE802.1p)* • Active network components fea-ture Ethernet technology • Minimum network requirement: 100Base Tx • Consistent multicast-capable network • Connection of indoor devices to conventional network sockets • The use of switches is a prerequi-site (no hubs in the network) • The Access indoor call stations (AHT/AHTV/AHF/AHFV/AVP) require PoE-capable switches or PoE injec-tors to IEEE802.3af • Broadband requirement approx. 1 Mbit per connection
* The perfect operational reliability of a VLAN integration can only be ensured by agreement with the Access Service Center (ASC).
Call number table • (who is calling whom and how) is available, KNX configuration is clarified• Required key configuration avail-able
9 Commissioning and operation
Commissioning encompasses the following services• Review of submitted documents• Initialization of the system (server)• Identification and assignment of devices used, licensing arrangements• Set-up and configuration of door stations• Set-up and configuration of indoor stations• Set-up and configuration of soft-ware clients• Set-up and configuration of gateways (connection of non-Siedle devices)• Instruction and data transfer to the administrator/user on site
Commissioning instruction The commissioning process for the Access system is described in detail in the Access server commissioning instructions which can be found in the Siedle download area.
133
Recommendation
• Be aware of inrush currents, including when power is restored after power failures. • Protect max. 6 ATLC/NG 670-… with a B 16A circuit breaker; if necessary, an appropriate inrush cur-rent limiter must be provided by the customer.• To prevent supply problems, we recommend the use of PoE switches which can supply each PoE port according to standard “IEEE 802.3af” with up to PoE class 3.
Access indoor station PoE class
AHF 870-…/AHFV 870-… 2
AHT 870-…/AHTV 870-… 2
AVP 870-… 3
Operating manual To ensure that you can retrace the status of a system at any time, an operating manual should be drawn up and regularly maintained.Siedle recommends compiling an operating manual to document the network and the Access system.The operating manual must be accessible to servicing personnel and contain fundamental information:• Contact data of the system admin-istrator (with deputization arrange-ments)• Hardware list• Documentation of the server con-figuration• Server backup• Documentation of the software status and device configuration• Construction plan with structured cabling (LAN policy)• Issue of passwords and possibilities for remote login access• IP address and device names of the network components
• Process descriptions (e.g. creating a user, exchanging devices etc.)• Documentation of changes made• Documentation of errors/remedy of errors
Updates and maintenance
During the update process, the power supply to the devices must not be interrupted, as this can result in damage. In this case, a repeat update is no longer possible, and the devices will have to be sent in for repair.
The software for all Siedle Access products with network connection is capable of updating.The updates for system components can be centrally imported via the Access server (from Access server V 3.0 and above as installer).From Access-Server V 3.0 and above, the system software and updates are supplied to the market solely by the Access Certified Partners (http://www.siedle.com/mysiedle).New Access performance features are also announced at www.siedle.com.The software status of the Access system must be recorded in the operating manual. Ensure that the active network components (switches, routers, firewall) are working with the latest software status.Siedle Access permits system access by remote login for maintenance and troubleshooting.For this purpose, online access to the Access server is required.
Maintenance contract With Access Professional V 4.0.0 and upwards, the field “End main-tenance contract” is located on the dashboard of the Access administra-tion user interface. The relevant date indicates up to when the customer will receive automatic updates/upgrades and can carry out a system update. The maintenance period is initially 1 year after first commis-sioning of the Access server for all systems. After this, all customers can decide whether they wish to extend the maintenance period for their system by paying for an extended maintenance contract. Alternatively a fee is payable for every update/upgrade.Maintenance contracts for the Siedle Access system can be pur-chased both through the Siedle Project Sales and through an Access Certified Partner (ACP).
134
10 Servicing
Service requirement Access systems are serviced by the regional Access Certified Partner (service specialists). Customers/administrators request this services as the need arises.For services specialists, access must be afforded to all parts of the system at all times. The administrator and all necessary documents appertaining to the system must be available for the duration of the servicing work.
Warranty Siedle only provides a guarantee for configurable functions and system properties on hardware and soft-ware supplied by Siedle if commis-sioning was carried out by the Siedle Access Service Centre or our Access Certified Partners and this can be verified.Statutory rights for the delivery of defect-free goods are not affected.All system components which are designed for/suitable for installation in an electrical distribution board or in an IT cabinet system/housing may only be installed in the permitted installation position according to the enclosed product information.If system components are operated in improper installation positions or with improper operating parameters (e.g. excessive ambient tempera-ture), this will render their warranty rights void in the event of service.
Exchanging devices All devices which are connected directly to the network (indoor devices and ATLC 670-…) can be exchanged in running operation.Procedure:The administrator overwrites the MAC address for the device with the MAC address of the new replace-ment device in the server.Exchange the defective device.The configuration remains unchanged, making the function identical with the predecessor device.
Exchanging ATLM/ATLE 670-… Procedure:• Only the line rectifier which sup-plies the ATLC 670-… has to be disconnected from the mains. The Access system can remain opera-tional.• Exchange the defective ATLM/ATLE 670-…• Switch the line rectifier back on.• The system is now completely ready to resume operation. No con-figuration is required.
Exchanging a defective server AS 670-…/ASH 670-… Procedure:1 Sever all connections to the mains and the power supply.2 Exchange the defective server and restore all the connections3 Set up the supplied licences on the new server4 Restore the backup of the current configuration. If no backup exists, the system must be reconfigured.
Update process The update is initialised by the administrator and centrally executed at the server for all the devices. It is not possible to carry out a single update for an individual indoor device or server.During the update process, the entire system is non-operational. No calls or functions can be initiated or received. Updates should therefore be carried out during periods of minimal activity and with sufficient advance notice. All buttons flash yellow to visually indicate that the indoor devices are being updated. After the update is complete, the devices are automatically restarted.During the update process, the power supply to the devices must not be interrupted, as this can result in damage. In this case, a repeat update is no longer possible, and the devices will have to be sent in for repair.
Start process The start process can be initiated centrally by the administrator at the server. Unplugging and reconnecting the internal devices also initiates a restart. The Access door loudspeaker controller can be restarted by briefly disconnecting the relevant line recti-fier or by actuating the reset button.A restart of the internal devices is signalled by a yellow flashing light, starting with button 8 and ending with button 6, and the display lights up in white. If the start is successful and when the device has received all the information from the server, the system goes to the operating status. In the event of a fault, e.g. the internal device is not configured, all the buttons light up continuously in red.
135
Initial commissioning/Login
Requirements:• PC with installed browser (Firefox, latest version)• The PC and Access Server must be in the same network/linked using a crossover cable• The Access Server commissioning instructions can be found in the Siedle download area.
Registration at the administrator user interface From Access server version 3.0.0, the login confirmation prompt on the login page is deactivated as standard. In order to reactivate the security code request, please follow the procedure described in the Access commissioning instructions (chapter Activating the security code request).
Login via a web interface takes place on the Access server. For this, enter the IP address of the server. This is defined as 192.168.1.1 in the as-delivered status.
The administrator set in the factory has the account name “admin” and the password “admin”. In addition, a randomly generated security code is required with each login. This is entered in the security code field. If the security code is not legible, click onto it to generate a new code. Start the login process using the “login” button. Further con-figuration is prompted by the server instructions and using the integrated help function.
136
10 Servicing LED displays
ATLC 670-0
LED display LED operating status Functional characteristics
LED 1 off no operating voltage
lights up in green operating voltage applied
Link lights up in green connection to switch exists
flashes green data communication with the device
off no connection to the switch
Status lights up in green Vario bus ready for operation
flashes green data communication in the Vario bus
Error/OK lights up briefly in green after Power On for around 5 seconds
flashes green during ramp-up, flashing starts up appr. 20 seconds after Power On
lights up in green ATLC is logged in at the server
lights up in red error logging into server
A1 lights up in green output 1 HIGH (DR)
off output 1 LOW (DR)
A2 lights up in green output 2 HIGH
off output 2 HIGH
A3 lights up in green output 3 HIGH (LI)
off output 3 LOW
E lights up in green input 1 HIGH (LI)
off input 1 LOW
ATLC 670-0
SN 0000000000
IP 20
Access Türlautsprecher-ControllerAccess Door loudspeaker controllerAccess Contrôleur de platine de rue
Link
Status
Error / OK
A1 A2 A3 E
23 24 13 14 15 16 17 18 S1 S2 S3 S4 D1 D2 V1 V2
Output Input ATLM/ACM
LED 1
Reset
137
AHTV/AHFV 670-…
LED display LED operating status Functional characteristics
LED 8 flashes yellow Searching for the server
off server found
LED 7 flashes yellow loading configuration from server
off export successfully completed
LED 6 flashes yellow login to server
off login successful
LED 1-8 lights up briefly in yellow after Power On for around 5 sec-onds
lights up in red error logging into server
off successfully logged into server
LED 1-8 Flashes for appr. 2 mins. Software update for terminals
ATLM 670-...
LED display LED operating status Functional characteristics
LED 1 flashes 3x in green Device starts up
off Ramp up successfully completed
lights up in green Audio active
Flashes briefly 3x in green unassigned/unprogrammed call button is actuated
LED 1
LED 4
LED 5
LED 8
LED 1
LED 8LED 1
138
10 Servicing Terminal connections and measured values
ATLC 670-0
Terminal Description Measured values
V1V2
Video signal (two-wire FBAS) appr. 40 – 200 mV AConly with active video connection
S1S3
Microphone +Microphone -
appr. 42,1 – 47,4 V DC(Typical: 46,2 V DC)
S2S4
Loudspeaker +Loudspeaker -
appr. 42,1 – 47,4 V DC(Typical: 46,2 V DC)
D1D2
Variobus +Variobus -
appr. 230 – 270 mV DC(Typical: 250 mV DC)
13/14 Output 2 potential-free -
15/16 Input 1 potential-free * -
17/18 Input 1 electrically isolated * -
23/24 Output 1 potential AC/DC programmable: appr. 10-16 V AC, 13 V DC
* The switching input can either be used potential-free or electrically isolated. It is not intended for simul-taneous use.
ANG 600-0
Terminal Description Measured values
11 Changeover contact A3 common -
12 Changeover contact A3 N.C. con-tact
-
14 Changeover contact A3 N.O. con-tact
-
+/– Output voltage 48 V DC, 800 mA appr. 48 V DC
Specification of the changeover contact:• Contact load at least 5 V, 100 mA 10 V, 10 mA 24 V, 1 mA• Admissible switching outputs: • Motor max. 3 A bulbs max. 1300 W• Energy saving lamps max. 18 x Silvania 7 W or 12 x Osram 11 W• Fluorescent lamps uncompensated cos j 0.5 max. 800 VA Duo fluores-cent lamps max. 1200 VA• Parallel compensated fluorescent lamps max. 400 VA• Iron core transformers for low-voltage halogen lamps max. 1000 W• Electronic transformers for low-voltage halogen lamps max. 1300 W
139
AIVS 670-0
Terminal Description Measured values
V1V2
Video signal (two-wire FBAS) appr. 40 – 200 mV AConly with active video connection
V3V4
Supply AIVS 670-0 +Supply AIVS 670-0 -
appr. 48 V DC
V5V6
Camera actuation +Camera actuation -
appr. 48 V DC
S5S6S7
Camera supply permanent +Camera supply control signal +Camera supply -
appr. 12/24 V DC
* The total current from S5 - S7 and S6 - S7 is limited to 200 mA. The output voltage always corresponds to the set switch position.
140
11 Glossary
3G (UMTS)Third generation mobile network standard with transfer rates of up to 42 Mbps if improved data transfer methods (HSDPA+) are used.-> UMTS, HSDPA(+)
4G (LTE-Advanced)Advanced 4th generation LTE mobile network standard (also called LTE Max). Currently transfer rates of up to 300 Mbps are offered. The maximum possible transfer rates may vary from country to country. According to the standard, transfer rates of up to 1000 Mbps are envis-aged.-> LTE-Advanced
Access controlSecurity system which controls the access to a property (plot, building, room, etc.) via a set of rules defined by the user (access for whom, when and where). Thus only authorised persons obtain (time-limited) access to the areas for which they have been approved. Siedle offers a modular access control system which can also be operated in parallel with Access via the Variobus.
BackupBackup copy/backed up data of a system on a separate storage medium for the purpose of data recovery if data is lost. System-dependent configuration and/or operating data can be recovered. There are different methods for cre-ating a backup.-> Data backup
BandwidthParameter of signal transmission systems in telecommunications (e.g. IP-based networks) which describes and classifies the theoretical data transmission performance. The bandwidth of the transmission path (e.g. network cable) determines the maximum theoretical data trans-mission rate which can be reliably transmitted per unit of time and is the difference between an upper and lower frequency value within a frequency range in which the data transmission takes place by means of signals.The greater the bandwidth, the more information can be trans-mitted per unit of time. Bandwidth is expressed as a frequency value in units of Hertz (Hz), if necessary with unit suffixes (M for Mega = mil-lions) (e.g. 300 MHz). Colloquially, bandwidth is also used as a synonym for the data transmission rate within IP-based networks, although nor-mally the transfer rate or data rate is meant.
Cat. 5 – Category 5Class (stage) of a standardised multi-stage classification system of TP cables (twisted pair data cable) for use in telecommunications and infor-mation technology. The classification system specifies the transfer property requirements of a data cable in the relevant class and thereby forms the basic for the specification (link class) of an end-to-end data transmis-sion path with all components. The requirements on a data cable increase with the suffix (digit). Cat. 5 contains data cable specifications for a data transfer path (data cable and junc-tion boxes) of up to 90 m and data transfer rates of over 20 Mbps or operating frequencies (bandwidth) of up to 100 MHz (Megahertz) and thereby for the 100 BASE-TX (2-pair) Ethernet application in IP-based networks.-> TP – Twisted Pair
Data backupCopying or exporting system confi-guration and/or operating data for creating a backup copy for the pur-pose of data recovery if data is lost.-.> Backup
Delay (information technology)-> Latency time
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DHCP – Dynamic Host Configuration ProtocolNetwork/communication protocol which enables the integration of any computers (clients) in an existing network based on a leading instance (server, router, etc.) without manu-ally configuring the network inter-face. Information needed for net-work traffic and data exchange, such as IP address, subnet mask, gateway, DNS and, where applicable, other settings, are automatically assigned, provided the operating system/its configuration of the computer (client) supports this.
DistributionThis is the place where several devices are switched together (con-nected). This often takes place in a distributor cabinet, although this is not mandatory. Large distribution panels can fill an entire room.
Door areaIn the door area are all devices connected to the system via an Access door loudspeaker controller ATLC 670-… This also includes cam-eras which monitor different areas.
DoormaticProgrammable function which actu-ates a contact in the ATLC 670-… with a time delay (door release).Example: The entrance doors to a doctor’s surgery can be opened directly after pressing the call button, as the door release is auto-matically triggered.
DNS – Domain Name SystemDirectory service (database) in larger networks and the Internet for con-verting domain names (e.g. www.siedle.com) into IP addresses (e.g. 10.11.12.13). DNS is automatically managed and continuously updated on the Internet by numerous decen-trally positioned servers. Without DNS, a company homepage on the Internet could only be called up by entering the IP address (if known).
DynDNS – dynamic DNS (DDNS)Service for automatically updating the associated domain entry (speci-fied domain name) in the DNS in real time after a (public) IP address is changed. In this way, a computer can always be reached under the same domain name, even if the user does not know the actual IP address. For example, a typical application is the accessibility of a computer via the Internet, which is operated on a private DSL connection with daily forced disconnection and a newly assigned IP address. DynDNS can be run as a service via various DynDNS providers.
FirewallSecurity system which can protect an individual computer, server or an entire network against unwanted network access, based on config-ured network communication rules. The firewall may be software on an end device or an independent device in the network.
FirmwareSoftware that can be embedded in electronic devices (e.g. indoor stations) and is needed for their fundamental operation. Firmware only works with its intended device. It is only possible for the end user to change the firmware themselves when the manufacturer provides a software package which is able to carry out the software replacement on the device.
G.711Standard (recommended) for codecs used for digital audio compression of analogue audio signals with the aid of pulse code modulation (PCM) for IP telephony (VoIP) and classic landline telephony (ISDN) applica-tions. The audio codec G.711 is lossless and requires very little pro-cessing power.
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GatewayNetwork-capable components (cou-pling element) which connects or disconnects networks which can be based on completely different archi-tectures and protocols.Example: KNX (bus system) is con-nected to the Access system (TCP/IP network) via a KNX gateway. In the Access system, gateways for KNX and an external connection to SIP telephony (SIP gateway and SIP provider) can be created.
H.264/MPEG-4 AVCRecommended and functionally-extensive standard for video com-pression of digitalised and high-reso-lution video sequences (e.g. HDTV).
HSDPA(+) – High Speed Downlink Packet AccessData transfer method of the 3G mobile network standard (UMTS) with standard transmission rates of up to 7.2 Mbps (HSDPA) or 42 Mbps (HSDPA+) (also called 3.5G, 3G+ or UMTS broadband). The maximum possible transfer rates may vary from country to country. According to HSDPA end device categories, transfer rates of up to 337.5 Mbps are possible.
HTTP – Hypertext Transfer ProtocolProtocol for data/file transfer of text, image, audio or video files within an IP-based network or via the Internet. The http protocol is used to transmit single frames of the MJPEG video sequence from IP cameras, for example.-> IP camera, MJPEG
Indoor stationCall station and accessory for use indoors as duplex call station for the door area (door station) outdoors. All hardware-based Access call sta-tions for indoors (AHT/V, AHF/V, AVP) are regarded as indoor stations. However, computers or smartphones which can provide a similar range of functions through the use of the rel-evant client software or app are not included in this definition.
IP cameraNetwork (video) camera which provides a retrievable video image in the digital form of a video stream via the IP protocol in an IP-based network or Internet. IP cameras can be remotely configured via network access and offer a user-dependent extended range of functions as well as security functions for convenient video surveillance. The network bandwidth required to transmit the video stream depends on the camera’s single frame resolution and frame rate as well as the video com-pression method used. To access the video stream, the relevant URL of the IP camera must be known. An URL contains the information with which the video stream of an IP camera can be reached in the network and gen-erally contains an IP address or host name, as well as further-reaching information about the video stream.
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KNX standard – Konnex standardGlobally accepted bus standard (bus system) for building automa-tion, where the device control (KNX bus system) and the power supply (230 V AC) are operated separately from one another in two networks. Both networks can be installed inde-pendent from one another or in par-allel in the building. The individual components are controlled via the control network (KNW bus system) by means of a telegram which con-tains the relevant control commands. KNX is sold by various providers as a building automation solution.
LAN – Local Area NetworkLocal Area Network Network which connects the system components.The term LAN is used to make a rela-tive classification/distinction between wired, non-public (private) and/or locally-operated, networks and other networks.-> WAN, WLAN
Latency time (delay time)Technically-limited time difference (delayed response time) of technical devices in an IP-based network (Internet) between the initiated query and the response (answer) received by the remote station awaiting response. The following requirements apply to the Access system:• Maximum 50 ms delay in one direction (one-way delay)• Maximum 100 ms overall delay• Packet loss < 1%• Maximum 20 ms jitter (variation)In IP-based networks, an excessive latency time can result in a notice-able service delay and malfunctions through to non-availability of indi-vidual or several devices/systems.
LicencesActivated usage right on the Access server, the scope of functions of which is provided by the relevant licence. An Access basic licence is required for standard operation of the Access server (included in the scope of supply of the hardware versions, optional with the soft-ware versions). The relevant device licences are included in the scope of supply for operation of the Access indoor stations. Additional perfor-mance features are activated via optional licences. For details see the Access licences chapter (For detailed information, see page 40).
LTE Advanced – Long Term Evolution AdvancedAdvanced 4th generation LTE mobile network standard (also called LTE Max). According to the standard, transfer rates of up to 1000 Mbps are envisaged. Currently transfer rates of up to 300 Mbps are offered. LTE is being continually expanded in Germany. The maximum possible transfer rates depend on method and expansion and may vary from country to country.-> 4G (LTE-Advanced)
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MAC address – Media Access Control addressTwelve-character hexadecimal hard-ware address organised in pairs (e.g. 1A-2B-3C-4E-5F-66) of an internal or external network adapter/network-capable device interface (computer, router, etc.) for wireless and/or wired network connection (also called Ethernet address, Ethernet ID, air-port ID or Wi-Fi address). The MAC address can be used as a basis for automatic configuration of devices connected to an IP-based network and is used by various network proto-cols (e.g. DHCP). In theory, the MAC address of a network-capable device should be globally unique and it was regarded as a unique identifier within a network. The preset MAC address of a network adapter itself cannot be changed. However, the MAC addresses to be communicated can be changed as desired by software or created at random using existing device functions (e.g. smartphones) in order to prevent unique identifica-tion or to use replacement devices with the same ID. The MAC address also contains the manufacturer code as a six-character prefix.
MJPEG – Motion JPEGProcess (video codec) for single frame compression of a video sequence to be transmitted, which is used on network cameras. MJPEG is a process used to compress the content of the single frames. The video stream is transmitted in JPEG-compressed single frames via the HTTP protocol.
MulticastAn information and communica-tion technology type of point-to-multipoint connection for efficiently sending data via a multicast IP address. Information is sent from the source just once, duplicated in the IP-based network and automatically forwarded to all the pre-determined recipients. This relieves the load on the sending network components (e.g. server) as the duplication and distribution of the sent informa-tion takes place via the distribution components (e.g. multicast-capable switches). All distribution compo-nents within a network must be multicast-capable. Access is multi-cast-capable.-> Unicast
NAT – Network Address TranslationNetwork address translation method for automatic replacement of address information in data packets with other information, to connect various networks (e.g. private and public IP-based network). For each established connection, the request-er’s connection information and the destination are stored so that the answer can be assigned to the right requester. In the public IP-based net-work, the private network address of the requester is not known. NAT is required in iPv4 networks due to the existing shortage of iPv4 addresses. Private networks receive just one public network address instead of several. There are two different NAT methods. NAT is also used within an IP-based network for the internal separation or connection of several private networks with different net-work address spaces.
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NTP – Network Time ProtocolSynchronisation protocol which syn-chronises the time within IP-based networks and the Internet. NTP is realised via decentral and synchro-nised time servers which are located on the Internet. Without a central time server, time differences could arise between devices in IP-based networks. Significant time differ-ences can lead to malfunctions within IP-based networks.
Operating manualCurrent Access system documenta-tion including all changes to hard-ware and software components. In addition, responsible contact partners, regular measures for safe-guarding operation and instructions for emergencies can be documented (logbook).
PoE – Power over EthernetPower over Ethernet supplies an indoor station or another PoE-capable device via the connected network cable. Network-capable devices can be decentrally and indi-vidually supplied with PoE injectors or centrally supplied via PoE-capable distribution components (e.g. switches). PoE is divided into various power classes. PoE is standardised according to IEEE 802.3… and is continually developed and improved.
QoS – Quality of ServiceProcess for determining the transfer behaviour of selected services in net-works. With QoS, different network protocols are parametrised in order to influence factors such as band-width and transport priority of a net-work protocol to ensure the required network behaviour. For example, QoS provides high transport priority and bandwidth for the telephony in an IP-based network in order to ensure that it works correctly.
RouterNetwork components which connect two or more IP-based networks with, if necessary, different network proto-cols and/or network address spaces and enable data traffic between these networks or even the Internet. A router can also be used within an IP-based network for the internal separation or connection of several private networks with different net-work address spaces. Routers come in a variety of designs with different equipment versions relating to the range of functions and the security functions.-> NAT
RTP – Real-Time Transport ProtocolProtocol for continuous and packet-based transmission of real-time sensitive multimedia data streams (audio, video, text, etc.) in IP-based networks. RTP is used with SIP to transport the audio and video streams of the call and is normally operated via the UDP protocol.-> SIP, UDP
SIP – Session Initiation ProtocolNetwork protocol for standardised control and implementation of a communication connection (session) between at least two location-independent users in IP-based net-works. SIP is used as a protocol in the Access system and IP telephony (VoIP). SIP is internationally accepted.-> VoIP, SIP Client
SIP ClientHardware or software-based applica-tion which uses the SIP standard for location-independent communica-tion with other SIP-capable applica-tions within IP-based networks. SIP clients include SIP telephones (VoIP) or VoIP apps on mobile phones, for example.
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SIP-GatewaySoftware-based SIP interface of the Access server for connecting a SIP-capable telephone system with one or more (bundled) speech channels (SIP trunk) to the Access server via an IP-based network. SIP gateways enable connection of the Siedle Access server on the network side to a SIP-capable telephone system provided by the customer via a SIP trunk. The Access-side configuration takes place via the administration interface of the Access server. The trunk connection is established using the static IP address of the telephone system and the Access server and without SIP account login data.-> SIP Trunk
SIP-ProviderSoftware-based SIP interface of the Access server for connecting a SIP provider account to the Access server via an IP-based network. The Access-side configuration takes place via the administration interface of the Access server. SIP provider accounts link the Access server over the Internet to the VoIP telephony connection of a VoIP provider by means of the Session Initiation Protocol (SIP). Log on as SIP user at a SIP provider with 1 speech channel (TC system, Cloud, …). In addition, you are given a central overview for configuration of the SIP provider account.-> SIP user, SIP Client
SIP TrunkTechnique (method) with which the Access server can be connected to an IP-based telephone system via an access point. Via this trunk connec-tion, (several) bundled call numbers can be used from the Access server for telephony purposes through the IP-based telephone network. The telephony connection of several call numbers with one access point takes place on the Access server via the SIP gateway. To connect a SIP-capable telephone system to the Access server, the trunk connection is estab-lished based on the static IP address of the telephone system and the Access server and entirely without SIP account login data.-> SIP-Gateway
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SIP User (SIP account)User account which has been cre-ated with a VoIP provider and contains the required access and operating data of a VoIP telephony connection of a VoIP telephone con-nection and is linked to an associ-ated call number. The login data of the user account can be created in the Access server as SIP provider in order to log the Access server onto the VoIP telephony connection of a VoIP provider by means of the session initiation protocol (SIP) via the Internet, and thereby be able to make telephone calls.-> SIP Client, SIP-Provider
Storey call buttonThe storey call button (ERT) is used to call from a storey door to the indoor device. This can be connected as standard on all Access indoor stations via the right-hand R45 jack (switching input E1 – terminal 3,6) of the indoor station and addition-ally configured via the administration interface of the Access system.
SwitchCentral coupling element and distri-bution component which links indi-vidual network components to an IP-based network and is responsible for forwarding data traffic within the IP-based network (also called a net-work switch or distributor). Switches come in a variety of hardware-based designs with different equipment versions relating to the range of functions and the security functions.
TCP – Transmission Control net-work ProtocolTransport protocol for data traffic between network-capable devices (servers, computers, etc.) in IP-based networks. TCP is used for packet-based data transfer in almost all operating systems and is part of the IP protocol for the Internet. For bidi-rectional data traffic, there must be a connection between the devices.TCP includes:• Transport service• End-to-end control (reliable data transfer)• Connection management• Data flow and time control• Multiplexing connections• Error handling
Telecom socket RJ45 8/8Standardised connection unit for network cabling with two eight-pin RJ45 jacks for correct connection of Access indoor stations.The left-hand jack is used for the LAN network. The storey call button and if applicable the customer’s own existing signalling device are con-nected using the right-hand jack.
TP – Twisted PairA TP cable (TP) is a symmetrical copper cable used for data transfer, which consists of two cores (1 core pair) which are twisted around one another. In IP-based networks, cables with four core pairs are normally used. The data transfer takes place in a single direction per core pair. For a data connection 2 core pairs are required (sending and receiving). In the case of higher data transfer standards (e.g. 1000 BASE-T Ethernet) all 4 core pairs are used (2x sending and 2x receiving). TP cables come in various unshielded and shielded designs, each with different core diameters. The performance capability of a TP cable is specified by its category (e.g. Cat 5).-> Cat. 5
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UDP – User Datagram ProtocolTransport protocol for data traffic between network-capable devices (servers, computers, etc.) in IP-based networks. Data transmission used in almost all operating systems and is part of the IP protocol for the Internet. For data traffic, a connec-tion is not necessary between the devices. UDP is a limited-reliability, insecure and unprotected transfer protocol, as no mechanisms are provided for this. In return, UDP uses less transport management data (overhead), thereby creating a lower additional data volume and is char-acterised by a lower latency time. In contrast to TCP, UDP has a reduced range of functions:• Transport service• Multiplexing connections• Error handling• UDP is used in voice transmission, as a low latency time is required.
UMTS – Universal Mobile Telecommunications System-> 3G (UMTS)
UnicastAn information and communication technology type of point-to-point connection for sending data from a sender to a recipient via an IP address. Information is sent from the source to the pre-defined recipient on an individual basis. Standard switches can be used for this type of data transmission. Existing networks without multicast ability do not have to be upgraded. Access is unicast-capable.-> Multicast
VLAN – Virtual Local Area NetworkClosed subnetwork within IP-based networks. A VLAN separates physical IP-based networks into any number of subnetworks. VLAN-capable switches ensure that data packets are only sent within this VLAN and are not forwarded to another VLAN, even though different VLANs can be connected to a shared switch or via several switches. Different methods are available for setting up a VLAN:• Port-based (old method)• Static (old method)• Tagged• Dynamic
VoIP – Voice over IPNetwork protocol for voice, data and video transmission which is used for IP/internet telephony and enables telephony in IP-based stationary and mobile networks. SIP, RTP and UDP are used for VoIP, to name a few. VoIP can only be used with suitable end devices, adapters or software clients. In addition, internal or external VoIP provision (e.g. VoIP provider) is required. Access provides an optional internal VoIP provision.
WAN – Wide Area NetworkWide area network which is designed for voice and/or data transfer over large distances. A WAN (e.g. Internet) covers a large distance and can be used without restrictions for business and private communica-tion. The term WAN serves to make a distinction between the relevant network sizes. The term WAN is used to make a relative classification/distinction between cross region and/or public IP-based networks and other networks.-> LAN, WLAN
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WLAN – Wireless LANWireless local network based on radio, for communication and data transfer between network-capable devices (computer, smartphone, etc.) and, if necessary, the Internet. The data transfer rate is continually being improved with the standard IEEE 802.11…. (Gross) data rates of up to 6.9 Gbps are currently possible (IEEE 802.11ac).The term WLAN is used to make a relative classification/distinc-tion between wireless, non-public (private) and/or locally-operated, IP-based networks and other net-works.-> LAN, WAN, Wi-Fi
Wi-Fi – Wireless FidelityCertification for WLAN products based on IEEE standards for ensuring interoperability/compatibility of the various WLAN products from dif-ferent manufacturers. Wi-Fi-certified products therefore comply with the WLAN standard IEEE 802.11… This is why Wi-Fi is incorrectly used as a synonym for a wireless network (WLAN). Wi-Fi is represented by the Wi-Fi-Alliance which includes all renowned manufacturers of network-capable devices.
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12 Index Access components
Designation Summarized description
ACM 670/673/678-… Camera module 24
AGW 670-… Gateway – network separation 38
AHT/AHF 870-… Indoor station 27
AHTV/AHFV 870-… Indoor station 26, 27
AIVS 670-… Video interface (coupler) 23
ALFA 270-… Access application licence 42
ALFS/ALFT 270-… Access application licence 42
ALFV 270-… Access application licence 42
ALKNX 270-… Access application licence 42
ALT 270-… Access application licence 42
ANG 600-… Line rectifier 29, 31
APR 670-0 10/20/40/80/160/320 Access user licence packages 41
ASC/ASHT 170-… Client software/access licence 38
ASM 170-… Software module/access licence 39
ASH 670-04 S/M Access server hardware 34
ATLC/NG 670-… Door controller 29
ASU 670-… Access server upgrade (HW) 39
ATLCE 670-… Door controller extension 30
ATLE/ATLM 670-… Function module for door station 21
AUV 870-… Indoor station upgrade 28
AVA 670-… Video interface (decoupler) 30
AVP 870-… Indoor station 26
AZA/AZIO 870-… Indoor station accessory 28
AZTV/AZTVP 870-… Indoor station accessory 28
BRMA 050-… Call button connection module 21
BTM 650-… Function module for door station 22
CE 600/950-… External camera 25
COM 611-… Function module for door station 22, 63
DRM 612-… Function module for door station 22
DSC 602-… Pilfer safeguard controller 30
EC 602-… Access control controller 65
ECE 602-… Access control controller extension 65
ELM 611-… Function module for door station 63
FPM 611-… Function module for door station 63
NG 602-… Line rectifier 31
PME-… Mail notification system 23
Siedle app for Access… App (iPhone/iPad) 39
TCIP SRV 603-… Access control IP server 64
TCIP 603-… Access control IP controller 32
TR 602/603-… Transformer 32
TÖ 61x-… Door release 23
VNG 602-… Line rectifier 31
VTMC 640-… Camera module 25
ZRE 600-… Server mounting accessories 28, 65
ZWA 640-… Connection accessories 30
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Access topics
Access cameras 24
Access Certified Partners 153
Access circuit diagrams 66
Access control 60
Access control connected values 60
Access control controller 64
Access custom-fit door loud-speaker circuit diagrams 98
Access licences 40
Access server variants 34
Access system functions 44
Accessory 28
After-sales service 153
App 39
Architect and project service 153
Button configuration 49, 53
Cabling for indoor devices 11
Cabling in the door area 8
Cabling structure/areas 10
CAL (Microsoft licences) 40, 43
Camera connection circuit diagrams 126
Cameras 24
Circuit diagrams – overview 66
Client-Software 38
Commissioning 132
Commissioning functions 46
Commissioning instruction 132
Commissioning requirements 132
Configuration – Access System 48
Control functions (switching/control) 45
Customer support and cus-tomer advice/Siedle centres 153
Distribution components 29, 64
Door area 8
Door controller 29
Door stations (outdoor/indoor area) 20
Doormatic 50
Electrical distribution board and IT cabinet systems 4
Electrical voltage 4
Electrostatic charging 4
Exchanging devices 134
Extension of the switching outputs/inputs 50
External cameras 25
External device licences 42
Function overview 44
General planning information 8
Glossary 140
Hardware clients 47
Index for Access components 150
Indoor stations 26
Initial commissioning/Login 135
Interfaces 46
LED displays 136
LED operating status 137
Legal notice 5
Licences 40
Line rectifiers 31
Location of the video camera 13
Maintenance contract 133
Microsoft licences (CAL) 40, 43
Minimum requirements – Server hardware / Virtual machine 36
Modules – access control 62
Network characteristics – Access system 10
Network LAN 10
Network security 38
Optional Access licences 42
Performance features – Access 6
Permitted conductor material 9
Pick-up range of the camera 13
Power over Ethernet (PoE) 10
Protect your network! 5
Protect your property! 5
Registration at the administrator user interface 135
Safety remarks 4
Server access control 64
Server administration – device parameters 51
Service functions 46
Service requirement 134
Servicing 134
Siedle centres 153
Siedle Classic 20
Siedle Classic circuit diagrams 104
Siedle service 153
Siedle Steel 20
Siedle Steel circuit diagrams 114
Siedle Vario 20
Siedle Vario circuit diagrams 70
Software integration for non-Siedle systems 39
Space requirements in distribu-tion boards/IT cabinets 33
Specification – switching outputs / inputs 68
Start process 134
Storey call button circuit diagrams 130
Supplementary functions 11, 44
Supply limits ATLC/NG 670-… 9, 12
Switching outputs/inputs 49, 56, 68
System components 18
System description 6
System extension 30
System overview 7
System structure, conductor material and range 8
System update 4
Telephony functions 45
Terminal assignment RJ45 131
Terminal connections and measured values 138
Transformers 32, 62
Updates and maintenance 133
Upgrade (indoor station) 28
Upgrade (server) 39
Video functions 45
Virtualization 37
Warranty 134
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13 Siedle service Customer support and customer advice/Siedle centres
Welcome to Siedle!Also in your area.Qualified staff are on hand to offer a fast, competent service.By telephone, or where necessary we will be pleased to visit you on site.Customers outside of Germany can contact one of our international rep-resentatives.
The current overview broken down according to regions is located in the download area on www.siedle.com
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After-sales service
Services and information Siedle websitewww.siedle.com
Access Certified Partner near to you
www.siedle.en/acp
S. Siedle & SöhneTelefon- und Telegrafenwerke OHG
Postfach 115578113 FurtwangenBregstraße 178120 Furtwangen
Telefon +49 7723 63-0Telefax +49 7723 [email protected]
© 2016/07.17Printed in GermanyBest. Nr. 210005937-01 EN