Manual LMSmodular Hardware Section 2 Cerberus® CnvCS6 CS6 Protocol Converter Technical Manual Cerberus Security for People and Assets Siemens Building Technologies Cerberus Division
Data and design subject to change without notice. / Supply subject to availability. © Copyright by Siemens Building Technologies AG We reserve all rights in this document and in the subject thereof.
About this document............................................................................... 1 1 2 2.1 2.1.1 2.1.2 2.2 2.2.1 3 3.1 3.2 4 4.1 5 5.1 5.2 5.3 6 6.1 6.2 6.3 7 Introduction .................................................................................. 2 Product description....................................................................... 4 The CPU board and LON extension board.......................................... 4 LED’s, push-buttons and switches ............................
About this document Purpose The CnvCS6 is an interface between a CS6 control panel and a GW20 or LMSmodular workstation. It performs the protocol conversion between the CNAP protocol of the CS6 and the conventional CMSDL protocol. Each CS6 control panel requires its own dedicated CnvCS6 unit. Scope This manual is intended as a guide for planning, installation and service personnel of Cerberus danger management systems. It contains all necessary information to install and commission a CnvCS6.
1 Introduction The CnvCS6 acts as a protocol converter for the CS6-Guarto intrusion control unit. It performs the protocol conversion between the CNAP protocol of the CS6 and the conventional CMSDL protocol used by the GW20 and the LMSmodular workstation. Each Guarto control unit requires its own dedicated CnvCS6. RS-232 CMS-DL OR CnvCS6 LON-Bus (CerCom) CS6 GW-20 Protocol Converter Guarto control Fig.
The configuration of the CnvCS6 is performed via switch settings (i.e. no configuration tool is required). The CnvCS6 can support two system configurations: § Direct connection to an LMSmodular station One Guarto control unit, equipped with internal parallel LON adapter K31070 and CnvCS6, is connected directly to the COM port of an LMSmodular PC station. In this architecture, the CnvCS6 emulates a GW-21 in a 1-level network.
2 Product description 2.1 The CPU board and LON extension board The CPU board is the main board (CD96800).
2.1.1 LED’s, push-buttons and switches CPU board Position PUL1 PUL2 LED1 ... LED6 Components push-button push-button LED Function reset the board send a service signal to the Neuron Chip diagnostic LED’s RXx ... TXx SW1-1 LED DIP switch status of UART’s RX/TX-line OFF (factory setting) Notes For the meaning see section 2.1.
2.2 The Backplane The backplane CD98812B has one connector for the CPU board. On the board there is a DB9 D connector for the serial port COM 3 that connects the CnvCS6 to the host (either an LMSmodular workstation or a GW20). The CPU board has 4 serial ports although only COM 3 port is used. The unit must be powered by a voltage within the range 10 .. 30 Vdc applied via the connector CN2. The central pin of this connector is the ground, while the others are clearly marked + and -.
3 System configuration Two system configurations are supported: • direct connection to LMSmodulr station for single Guarto panel applications • connection via GW20 for multi-Guarto panel applications The required configuration can be selected via DIP-switch SW1-4. See Tab. 1 3.1 Direct connection to LMSmodular station As the CnvCS6 emulates a GW21, this type of connection must be configured as a one level network. LMSmodular Other subsystems (direct link or via GW-2x LON-Bus max.
3.2 Connection via GW20 As the CnvCS6 emulates a GW21 it must be connected to the GW20 via NetM pad.. Consequently this type of connection must be configured as a two level network. LMSmodular GW-20 Gateway CDDL protocol max. 15m other subsystems CnvCS6 LON-Bus max. 1000m CS6 CS6 Protocol converter Guarto control unit Fig. 6 Connection via GW20 Up to 4 CnvCS6 converters can be connected to each NetM pad. (See latest release notes for any restrictions.).
4 Restrictions 4.1 Interactions The NISE and FHI pads cannot manage the CNAP application protocol, which is LON native. Interactions are only possible via the NetM pad. The CnvCS6 itself does not manage interactions. 5 Connection cables 5.1 CnvCS6 to LMSmodular station CnvCS6 LMS Male 9 pin Female 9 pin Male connector Female connector 1 1 2 2 3 3 4 4 5 5 6 6 7 8 7 9 8 9 CnvCS6 LMS-PC Fig.
5.2 CnvCS6 to GW20 CnvCS6 GW-20 Male 9 pin Male 9 pin Male connector Male connector 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 CnvCS6 NetM Pad Fig. 8 Connection CnvCS6 to GW20 5.3 CnvCS6 to Guarto panel 1 2 3 LON-Bus 1 4 2 K1 CN1 Parallel LON-Adapter CnvCS6 Fig. 9 Connection to Guarto panel 10 Siemens Building Technologies Cerberus Division e1936 06.
6 Installation 6.1 Integrated inside Guarto housing Protocol Converter CnvCS6 CN1 6.2 1 Data B 2 Data A 3 +12V 2 E 1 0V Mounted remotely: common power supply Protocol Converter CnvCS6 CN1 1 Data B 2 Data A 3 +12V 2 E 1 0V CN601/602 11 Siemens Building Technologies Cerberus Division e1936 06.
6.3 Mounted remotely: separate power supply Protocol Converter CnvCS6 CN1 1 Data B 2 Data A 3 +12V 2 E 1 0V CN601/602 Monitoring card E3C040 X1 5 +12V 6 7 8 12 0V 13 14 15 12 Siemens Building Technologies Cerberus Division e1936 06.
7 Line to host Line to Guarto Connectors Cables (Host/RS 232 signals) Cables (CS6/LON signals) Configuration CS6 system requirements Power supply requirements Operating conditions Dimensions: Weight: Technical data 1 serial line (COM-3) CD98805 extension board manages the connection with the CS6/Guarto (LON channel, Single-Ended communication mode) D-Sub9-pin on backplane for connection to host. Screw connectors for connection to Guarto. Shielded cable, with twisted pairs Max.
Keyword index B G Backplane board 2, 6 GW20 NetM pad 8 C L CPU board 2, 4, 5, 6 LON extension board 2, 4, 5 LON-adapter K31070 3 1 Siemens Building Technologies Cerberus Division 06.
Siemens Building Technologies AG Cerberus Division CH-8708 Männedorf Alte Landstrasse 411 Tel. +41 1 - 922 61 11 Fax +41 1 - 922 64 50 www.cerberus.ch Siemens Building Technologies Cerberus Division Cerberus Security for People and Assets Replaces - Doc.no Edition: e1936 06.
