RVON-I/O User Manual 9350-7772-000 Rev P 2/2010
PROPRIETARY NOTICE SHIPPING TO THE MANUFACTURER The product information and design disclosed herein were originated by and are the property of Bosch Security Systems, Inc. Bosch reserves all patent, proprietary design, manufacturing, reproduction, use and sales rights thereto, and to any article disclosed therein, except to the extent rights are expressly granted to others. All shipments of product should be made via UPS Ground, prepaid (you may request from Factory Service a different shipment method).
Important Safety Instructions 1. Read these instructions. 2. Keep these instructions. 3. Heed all warnings. 4. Follow all instructions. 5. Do not use this apparatus near water. 6. Clean only with dry cloth. 7. Do not block any ventilation openings. Install in accordance with the manufacturer’s instructions. 8. Do not install near any heat sources such as radiators, heat registers, stoves, or other apparatus (including amplifiers) that produce heat. 9.
Table of Contents INTRODUCTION ............................................. 1 SET PANEL ................................................................. 32 Description .............................................................1 Features ..................................................................1 Reference View .......................................................2 BASIC NETWORK CONFIGURATION .......35 LED EXPLANATION OF THE LED DEVICE STATUS MODULE ..2 Specifications ....................
CHAPTER 1 Introduction Description Coupled with the same VOIP technology used with the RVON-8, the RVON-I/O can take legacy analog audio and convert it to digital VOIP audio. The RVON-I/O expands the boundaries of digital audio to include analog conversion. There are many applications in which the RVON-I/O can be used, such as: • • • • • ADAM Matrix AIO to RVON-I/O to RVON-1, RVON-8, RVON-I/O or VOIP Virtual Keypanel. Zeus to RVON-I/O to RVON-1, RVON-8, RVON-I/O or VOIP Virtual Keypanel.
Reference View FIGURE 1.
Specifications Connections RJ-45 Ethernet DB-9 I/O Port (8 bidirectional audio and keypanel data; Male) DB-25 GPI/O Connection (Female) DB-9 Relay Port (Female) DB-9 Serial Port Power 90-240 VAC Physical 1 RU (height) 19 inches (482.6 mm) wide X 8 inches (203.2 mm) deep Digital TABLE 1. Digital Specifications Codec Bit Rate Coding Delay Playout Delay Bandwidth MOS* G.711 64 125 μs 20-60 ms 160-224 kbps 4.3 G.729AB 8 10 ms 20-120 ms 32-112 kbps 3.95 G.723 5.3, 6.
Pin Outs for Connections RJ-45 Pin Function Ethernet DB-9 Pin 3 +12V Through 300 Ohm Resistor 4 Closed 1 1 Ethernet TPO+ 5 Open 1 2 Ethernet TPO- 6 Common 0 3 Ethernet TPI+ 7 GND 4 TPO+ 8 GND 5 TPO- 9 Common 1 6 Ethernet TPI- 7 TPI+ 8 TPI- DB-9 Pin DB-25 Pin Function I/O 1 RS485+ 2 RS485- 3 N/A 4 RVON-I/O Audio IN+ 5 RVON-I/O Audio IN- 6 N/A 7 RVON-I/O Audio OUT- 8 RVON-I/O Audio OUT+ 9 N/A See page Figure 2, “DB-9 Crossover Cable Connection Diagram,” on
Connection Diagrams RJ-21 To DB-9 Connection Diagram FIGURE 4. RJ-45 to DB-9 Crossover Connection Diagram FIGURE 6. DB-9 Crossover Cable Connection Diagram FIGURE 2. RJ-12 to DB-9 Crossover Cable Connection Diagram FIGURE 3. RJ-45 to DB-9 Connection Diagram FIGURE 5. Straight DB-9 to DB-9 Connection Diagram FIGURE 7.
DIP Switches DIP Switch 1: RVON-I/O Mode Default Position: Open Switch Position: Open - Local Mode Closed - Remote Mode Description: There are two (2) modes in which the RVON-I/O can run: local and remote mode In Local mode, keypanels are directly connected to the RVON-I/O. For example, a KP-32 is connected serially to the RVON-I/O which is connected via Ethernet to the RVON-8 in the ADAM system. The connection between the KP-32 and the RVON-I/O is local.
CHAPTER 2 Installation The RVON-I/O can operate in one of two modes, LOCAL mode or REMOTE mode. When operating in LOCAL mode, keypanels are directly connected to the RVON-I/O. For example, a KP-32 is connected serially to the RVON-I/O, which is connected via Ethernet to the RVON-8. The KP-32 RVON-I/O is in LOCAL mode. When operating in REMOTE mode, a digital keypanel (such as KP-32 with RVON-1) is connected via Ethernet to an RVON-I/O, which is then connected to an intercom.
Reset the Current IP Address to the Default RVON-I/O IP Address The RVON-I/O is shipped with a default IP Address already configured on the unit. The default IP Address is 192.168.0.1, the default Netmask is 255.255.0.0, the default Gateway is set to zero. This feature is useful when using an RVON-I/O in the field (i.e.; a mobile truck) where the IP Address is constantly changing from on destination network to the next.
6. NOTE: Using Telnet or Serial programming (see ), configure the RVON-I/O as follows: To see actual Telnet commands, see “RVON-I/O Command Table” on page 25. set channel [chan] dest ip_addr (IP Address of the RVON-1, RVON-8, or RVON-I/O that is connected to the RVON-I/ O) dest_type (the type of device, either an RVON-1, RVON-8, or RVON-I/O) dest_chan dest_codec (optional) 7.
4. Connect the RVON-I/O to Ethernet. 5. Set the IP Address for the RVON-I/O (see “Setup IP Addresses” on page 17). 6.
FIGURE 8.
System Diagrams FIGURE 9. Local Mode This system diagram shows Local mode. It is called local mode because the keypanel is connected directly to the RVON-I/O on the opposite side of the network from the Matrix. The keypanels act as though they are locally connected to the matrix.
FIGURE 10. Remote Mode Remote Mode means the keypanels are not connected to the RVON-I/O directly. In the example, the KP-32 with RVON-1 or the VKP has to pass through the LAN/WAN before connecting to the RVON-I/O. In Remote Mode, the RVON-I/O is on the Matrix side of the network and the keypanels are on the other side of the network.
FIGURE 11. Local and Remote Mode The lower portion of Figure 11 shows a local setup (the keypanel is directly connected to the RVON-I/O), while the upper portion of the graphic shows a remote setup. The RVON-I/O works similar to an audio converter box. In the lower portion of the graphic, the audio coming from the KP-32 going towards the RVON-I/O changes from analog to digital audio (and vice versa).
FIGURE 12. Trunking with RVON-I/O When you trunk two (2) intercom systems together using two (2) RVON-I/O’s, configure both in Remote Mode (see Figure 10 on page 13.
RVON-1 Jumpers and Connections A selectable RS232/485 serial port is a connector J1. Jumper connections on J10, J11, and J12 select the signal mode on J1. • • When J10, J11, and J12 are jumped from pins 1 to 2 - J1 is configured for RS485. (Default) When J10, J11, and J12 are jumped from pins 2 to 3 - J1 is configured for RS232. J21 must be jumped from pins 1 to 2 to select UART B for RS485 RVON-1 keypanel operation.
CHAPTER 3 Configuration Setup IP Addresses There are three ways in which the IP Address can be set on the RVON-I/O; via a keypanel, through Telnet, or using the Serial Debug Port. If you are using a keypanel to set the IP Address of the RVON-I/O, you must use a KP-32, KP-632, KP-832, or a KP-812. There are two sets of instructions to configure the IP Address from a KP-32, KP-632, KP-832 and a KP-812. This is because the KP-812 uses encoder knobs to navigate its menu system.
NOTE: Press PGM to skip over any octet that does not need modification. 10. Repeat steps 8 and 9 until the entire IP Address is entered. 11. Press PGM. The Netmask menu item appears. NOTE: Once you have entered the IP Address, you will then enter the Netmask. The Netmask is a string of numbers similar to an IP Address, except that it masks or screens out the network port of an IP Address so that only the host computer part of the address remains (for example, 255.255.255.0). 12. Press PGM.
7. Tap the Select knob. The current IP Address appears. 8. Enter the first number in the IP Address. This activates the first octet of the IP Address and clears the rest of the IP Address. 9. Tap the Select knob. This confirms the first octet in the IP Address and moves you to the second octet. NOTE: Tap the Select knob to skip over any octet that does not need modification. 10. Repeat steps 8 and 9 until the entire IP Address is entered. 11. Tap the Select knob. The Netmask menu item appears.
To display settings for the RVON-I/O, do the following: 1. Open a Command Prompt application session. 2. At the prompt type TELNET (The IP Address is the existing IP Address assigned to the RVON-I/O). Figure 3. 3. Press Enter. The RVON login screen appears. 4. In the logon field, type the RVON login (default = telex). 5. Press Enter. 6. In the password field, type the RVON password (default = password). 7. Press Enter. An arrow prompt appears. Figure 4.
8. At the prompt, type dbgcmd to access the debug command screens. Figure 5. 9. Press Enter. An MXP prompt appears. 10. At the MXP prompt, type set rvon ip_addr 10.3.210.12 (this IP Address is for example purposes only). 11. Press Enter. The IP Address is set for the RVON-I/O. 12. Set the Netmask. 13. At the MXP prompt, type Activate. RVON-I/O will reset itself to the new IP Address. The current telnet session becomes invalid.
4. At the MXP prompt, set rvon ip_addr 10.3.210.20 (this IP Address is for example purposes only). Figure 6. 5. Press Enter. An MXP prompt appears. 6. Press Enter. The IP Address is set for the RVON-I/O. 7. Set the Netmask. 8. At the MXP prompt, type Activate. RVON-I/O will reset itself to the new IP Address. The current telnet session becomes invalid. Configure the RVON-I/O Using Telnet or a Serial Port RVON-I/O programming can be done using a direct serial connect to or a Telnet connection.
Configure RVON-I/O Using Telnet and Serial Port IMPORTANT: Because the RVON-I/O is shipped with a default IP Address it may not be accessible on the network. The IP Address should already be configured before attempting to try to connect through Telnet. To set the IP Address, see “Setup IP Addresses” on page 17. If the RVON-I/O already has an IP Address compatible with your network, you can configure the RVON-I/O thr4ough the use of Telnet.
8. At the prompt, type dbgcmd to access the debug command screens. Figure 9. Telnet 9. 24 Press Enter. An MXP prompt appears.
RVON-I/O Command Table TABLE 10. RVON-I/O Command Command Table Parameter 1 Parameter 2 Description show rvon Shows RVON-I/O IP Address and other general information. show channel Shows destination address and connection information. show serial Shows serial port setting. show gpio Shows gpio settings. show panel Shows the channel control settings (poll id and baud rate). show emac Shows Ethernet settings. set rvon Help screen which lists all “set rvon” commands. set rvon ip_addr X.X.X.
TABLE 10. RVON-I/O Command Command Table Parameter 1 Parameter 2 set channel [chan] onhook force the channel to disconnect. set channel [chan] offhook force the channel to connect. Help screen, which lists all “set serial” commands. set serial set serial mode X Set the serial mode. 0 = Pass Through mode set serial ip_addr X.X.X.X Set the destination IP Address for this serial pass-through port. set serial ip_addr_2 X.X.X.
Set the RVON login user name to Keypanel > At the command prompt, type: set rvon user Keypanel NOTE: For more information on Set Serial, Set GPIO, and Set Panel see, “Set Serial” , “Set GPIO” and “Set Panel” on page 32.
Bandwidth (kbps/channel) Bandwidth (kbps/side) Bandwidth (Bytes/sec) Total Packet Size (bytes) IP Overhead (bytes) Encoded Audio (bytes) Packets/Second 0,3,6,9 G.711 64k 10 100.00 80 60 140 14000 112 224 1,4,7,10 G.711 64k 20 50.00 160 60 220 11000 88 176 2,5,8,11 G.711 64k 30 33.33 240 60 300 10000 80 160 12,16 G.729 8k 10 100.00 10 60 70 7000 56 112 13,17 G.729 8k 20 50.00 20 60 80 4000 32 64 14,18 G.729 8k 40 25.
TABLE 12.
Default Setup Every attempt is made to ensure the board is shipped from the factory containing the following settings. All are “set rvon” commands COMMAN D DEFAULT VALUE ip_addr 192.168.0.1 IP address for the RVON-I/O netmask 255.255.0.0 Network mask for the RVON-I/O gateway none Gateway IP address for the RVON-I/O user telex RVON-I/O username for Telnet access. password password RVON-I/O password for Telnet access (8-40 characters).
1 KEYPANEL MODE EXAMPLE The GPI/O is associated with Port 0. This means that Port 0 will have eight GPI/O’s mapped to it. Connected to Port 0 is a keypanel with the keypanel ID of 33 in AZedit. To use the GPI/O, you can create UPL statements. But be careful to assign the correct Output Action parameters. Table 13. UPL TABLE 14.
NOTE: The extra port 9 only is currently applicable to the ADAM Intercom System setup. TABLE 15. All Keypanel Mode GPI/O assignments LOCAL GPI/O RVON-I/O GPI/O HARDWARE PORT GPI/O 9 DB-25 Port 1 GPI/O 9 DB-25 Port 2 GPI/O 9 DB-25 Port 3 GPI/O 9 DB-25 Port 4 GPI/O 9 DB-25 Port 5 GPI/O 9 DB-25 Port 6 GPI/O 9 DB-25 Port 7 GPI/O 9 DB-25 Port 8 Set Panel Set Panel sets the address at which the RVON-I/O will respond to polls sent by the Intercom.
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APPENDIX A Basic Network Configuration Basic Network Configuration This section covers basic network configuration set-up and testing. Also covered are basic concepts and operations, including the difference between LAN and WAN networks and how IP Addressing is used. In a networked environment, such as a company, typically there are many computers connected together using a router or a switch. In larger companies, there may be several different routers distributed in buildings and plant locations.
FIGURE 14. Local Area Network Diagram WIDE AREA NETWORK A wide area network (WAN) connects two or more LANs and can span a relatively large geographical area. For example, Telex Headquarters in Burnsville, MN is connected to several branch offices in Nebraska and Arkansas over a WAN. The largest WAN in existence is the Internet. FIGURE 15.
ACCESSING THE WIDE AREA NETWORK (WAN) Figure 3 shows LAN IP Addresses using a common IP Address, 10.2.100.X (192.168.X.X is another common address). Most devices are shipped with these addresses as its default. It is recommended to use these addresses for LANs. FIGURE 16. Network Address Translation NETWORK ADDRESS TRANSLATION (NAT) Using the initial IP Address, then converting it to a valid WAN IP Address is how the network address translation works, in theory.
TABLE 17. Packet Translation Packet before Translation Source Packet After Translation Destination Source IP Address Port Number IP Address Port Number IP Address Port Number IP Address Port Number To Internet 10.2.100.1 1031 192.156.136.22 80 99.5.1.30 1032 192.156.136.22 80 From Internet 192.156.136.22 80 99.5.1.30 1032 192.156.136.22 80 10.2.100.
IP ADDRESSES If you do not know your IP Address, you can open a DOS screen in a Windows®- based environment and bring up the ipconfig screen. To find your IP Address using ipconfig, do the following: 1. From the Start Menu, open a Command Prompt screen. 2. At the prompt, type ipconfig, then press Enter. The IP configurations appear for your machine, such as the DNS suffix, IP Address, Subnet Mask, and Default Gateway. 3. At the prompt, type Exit to close the screen.
Ping a Computer Pinging a computer on the network makes sure it is able to be “seen” and receive messages on the network. NOTE: You can also ping your RVON-8 card to verify that it is responding over the network by putting the cards IP Address in place of the computer IP Address. To Ping a computer on the network, do the following: 1. 2. From the Start menu, select Run.... At the Run command, type CMD to open a Command Prompt screen. 3.
2. At the prompt, type tracert and type the url or IP Address you want to trace. 3. Press Enter. The details of the tracer route are displayed. NOTE: 4. You will the message “request timed out” if the IP Address/ port IN or OUT is denied to the incoming or outgoing message. When you are finished, type exit to close the Command Prompt screen. RVON Configuration RVON cards use ports for communication of audio and control packets.
Below, is an example of a router configuration screen. Not all routers are configured the same way and may not look exactly like this screen. NOTE: 42 Linksys™ supports up to 253 nodes on a router. This is why it is called a Router/Switch because there are WAN functions like a router as well as having a 4-port LAN switch. It also does not support simultaneous forward and DHCP.
Network Terminology Bridge A bridge is a device that connects two LANs, or two segments of the same LAN that use the same protocol. Sometimes called “transparent bridges” they work at the OSI model layer 2. Simply put, they are not concerned with protocols. Their main job is to pass data to a destination address that is predetermined in the data packet. With a bridge, all of your computers are on the same network subnet (see Subnet).
44 LAN A LAN is a computer network that connects a relatively small area (a single building or group of buildings). Most LANs connect work stations and computers to each other. Each computer (also known as a “node”) has its own processing unit and executes its own programs; however, it can also access data and devices anywhere on the LAN. This means that many users can access and share the same information and devices. A good example of a LAN device is a network printer.
APPENDIX A RVON Trunking Connections In this chapter you will find the following drawings: • • • • • AZedit Via RVON-8 RS-232 Mode CS9500 Trunking Via RVON-I/O To RVON-8 ADAM Trunking Via RVON-8 Zeus II Trunking Via RVON-I/O To RVON-C Cronus Trunking Via RVON-I/O To RVON-8 45
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Figure 20: AZedit Via RVON-8 RS-232 Mode 47
Figure 21: CS9500 Trunking Via RVON-I/O To RVON-8 48
Figure 22: ADAM Trunking Via RVON-8 49
Figure 23: Zeus II Trunking Via RVON-I/O to RVON-C 50
Figure 24: Cronus Trunking Via RVON-I/O To RVON-8 51
Figure 25: RVON-16 Trunking 52
Notes 53
