Yamaha SRCD, ERCX, DRCX, SRCX user manual IP address, 192.168.0.0/24 192.168.1.0/24

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CHAPTER2 Ethernet Unit

IP address

The IP address is a unique number assigned to each device to identify that device on the network and prevent the same number from being used by different devices. (More accurately, an IP address is assigned to each network interface, since once PC may sometimes be installed with multiple network interfaces.) In a TCP/IP protocol, the data transmit source and destination are specified by this IP address. The IP address consists of 32 bits (4 bytes) so can be expressed with this number without changes, however it is normally expressed as a decimal number separated by periods (.) at each byte (in other words, four sets of numbers separated by periods). An IP address of 0xC0A80002, for example, is normally expressed as 192.168.0.2

The IP address is actually comprised of 2 address sections. One section is the network address. The network address is the address of the network itself. The other section is the host address section. The host address is an address for identifying each device on that network. The IP address, as shown below, uses the first through the Nth bits as the network address, and the N+1 bit through 32nd bit as the host address. (The value of N is determined by the subnet mask.)

1

N N+1

32

IP address

Network address section

Host address section

In an IP address of 192.168.0.2, for example, if the N value (network length) is 24 bits, then the network address section is 192.168.0, and the host address section is 2. Generally, in a network address, the host address section is 0 and the network length is listed behind the address. In the above example, this would be shown as 192.168.0.0/ 24.

One network can be connected with as many devices as there are addresses to identify them. However, host address bits having all zeroes (0), or all ones (1) are reserved and so cannot be used. In the above example, though the host address can identify 256 devices, the numbers 0 and 255 cannot be used so the maximum number of devices that can actually be connected is 254.

 

192.168.0.0/24

 

 

 

 

 

192.168.1.0/24

 

192.168.0.1

 

 

 

 

192.168.1.1

 

 

 

Maximum of

 

 

 

 

 

Maximum of

192.168.0.100 254 devices

 

 

 

192.168.1.100

254 devices

connected by

 

 

 

 

 

 

 

192.168.0.254

 

router

192.168.1.254

 

 

 

 

Network A

 

 

 

 

Network B

 

 

Any company (organization) can freely select a host address but when attempting to connect their network to the Internet, that company (organization) cannot select the network address on their own. An application to acquire a network address must be made to the NIC (in Japan, JPNIC). If connecting one’s network to the Internet is not necessary, then any company can freely select a network address, as well as a host address.

If there is no need to connect to the Internet, then use of the following addresses is allowed.

10.0.0.0 through 10.255.255.255

(1 unit of class A)

172.16.0.0 through 172.31.255.255

(16 units of class B)

192.168.0.0 through 192.168.255.255

(256 units of class C)

An address acquired by making application to NIC on the other hand is referred to as a global address.

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Contents Ethernet Page Introduction Memo 12-1 Error messages 12-2 Telnet message list Setting the TCP/IP protocolEthernet unit control commands Robot control commands Ethernet UnitMemo Chapter Basic safety points System design safety pointsInstallation and wiring safety points Start-up and maintenance safety points Precautions when disposing of the unitWarranty Period WarrantyWarranty description Page Ethernet Unit Ethernet unit features How data is exchanged ClientHow to connect to Ethernet Connecting to EthernetMaking system settings for the controller server Validating the Ethernet unitSetting the IP address This following explains how to set the IP addressM O Setting the subnet mask Setting the gateway Ethernet Unit Making the PC settings client Setting the TCP/IP protocolEthernet Unit Checking the connection with ping RS-232C Using TelnetDifference between Telnet and RS-232C communications Telnet dedicated parameters Setup method Telnet dedicated parameters1CHEK2USER3PASS Description of Telnet dedicated parameters Tout communication timeoutIdle no-reply timeout Port TCP port NoLIN-PASS Login password LIN-CHEK Login checkLIN-USER Login user name Lout Logout processing@operation code Operand 1,operand2,operand 3 c/f l/f Telenet communication commandsCommunication command specifications Transmission example Ethernet unit control commandsRobot control commands Response exampleMaking a connection with TELNET.EXE M O Other operating tasks Displaying the MAC addressDisplaying the version of the Ethernet unit Telnet message list Error messagesMessage List Troubleshooting Symptom Probable causes Checkpoints ActionBYE Program Specifications Ethernet unit specificationsModular connector Crossover cable UTP STP cableStraight-through cable Supplement Typical network systemsCrossover cable Straight-through cable Terminator 10BASE-5 cable Transceiver MAU DSU Head office router 133.215.0.1 255.255.255.0 133.215.0.2 TCP/IP protocols Ethernet Description of terminologyTCP/IP Transmission Control Protocol/Internet Protocol IP address 192.168.0.0/24 192.168.1.0/24Router MAC address Media access control addressSubnet mask Ethernet