• December 21, 2024

Proxy Thailand

Major IP Address Blocks For Thailand - NirSoft

Major IP Address Blocks For Thailand – NirSoft

Major IP Address Blocks For Thailand
In the following table, you can find all major IP addresses blocks allocated for Thailand.
Most of these IP blocks are assigned for Internet providers and hosting companies.
You can click the column header in order to sort the list by another field.
If you want to find the IP addresses blocks of other countries, click here.
If you want to download this IP addresses list in comma-separated values file (csv), click here.
From IP To IP Total IPs Assign Date Owner
1. 0. 128. 0 1. 255. 255 32768 08/04/11 1. 1. 2. 4. 10. 20. 255 65536 04/04/11 1. 46. 47. 255 131072 26/05/10 1. 179. 255 32768 08/04/11 14. 207. 0 14. 255 65536 20/09/10 27. 55. 0 27. 255 65536 19/03/10 27. 130. 255 65536 19/04/10 27. 131. 191. 255 16384 21/04/10 27. 145. 255 65536 25/03/10 27. 254. 255 65536 16/03/10 49. 64. 0 49. 127. 255 16384 26/10/10 49. 48. 49. 255 131072 20/09/10 49. 228. 231. 255 262144 25/11/10 49. 237. 255 65536 06/12/10 58. 8. 0 58. 9. 255 131072 08/02/05 58. 11. 255 131072 17/03/05 58. 255 32768 16/03/05 58. 82. 255 16384 30/03/05 58. 97. 255 32768 11/10/06 58. 136. 255 65536 23/05/05 58. 137. 255 65536 03/04/06 58. 147. 255 32768 16/06/05 58. 181. 255 32768 18/07/05 61. 7. 0 61. 255 32768 30/11/04 61. 19. 63. 255 16384 31/03/03 61. 255 16384 30/11/04 61. 255 32768 31/03/03 61. 90. 255 65536 11/05/04 61. 91. 255 16384 11/05/04 61. 255 16384 25/06/04 61. 159. 255 8192 25/06/04 61. 160. 255 8192 13/09/04 61. 192. 255 16384 13/09/04 96. 30. 0 96. 255 16384 12/03/08 101. 51. 0 101. 255 65536 13/12/10 101. 108. 109. 255 131072 13/12/10 106. 0 106. 255 32768 24/03/11 110. 34. 0 110. 255 32768 27/02/09 110. 255 65536 18/03/09 110. 77. 255 32768 06/04/09 110. 78. 255 65536 06/04/09 110. 164. 255 65536 23/04/09 110. 168. 171. 255 262144 23/04/09 111. 84. 0 111. 255 65536 11/06/09 111. 223. 32. 255 8192 15/07/09 112. 121. 0 112. 255 8192 27/01/09 112. 142. 143. 255 131072 10/02/09 113. 53. 0 113. 255 65536 22/10/08 114. 0 114. 255 65536 20/05/08 114. 255 65536 26/05/08 114. 255 65536 12/01/11 115. 31. 0 115. 255 16384 09/07/08 115. 67. 255 65536 15/07/08 115. 87. 255 65536 28/07/08 116. 58. 224. 0 116. 255 8192 03/04/07 116. 68. 144. 255 4096 14/05/07 117. 0 117. 255 65536 18/06/07 117. 208. 255 4096 06/08/07 118. 172. 0 118. 175. 255 262144 08/10/07 119. 0 119. 255 32768 19/12/07 119. 42. 255 16384 03/01/08 119. 255 65536 09/01/08 119. 59. 96. 255 8192 04/02/11 119. 95. 255 8192 21/01/08 119. 76. 255 65536 22/01/08 119. 110. 255 16384 11/02/08 119. 255 4096 22/02/08 122. 154. 0 122. 155. 255 131072 08/01/07 123. 242. 0 123. 255 16384 13/02/07 124. 40. 0 124. 239. 255 4096 21/01/09 124. 120. 255 131072 16/02/06 124. 122. 255 65536 01/05/07 124. 157. 255 32768 31/03/06 125. 24. 0 125. 25. 255 131072 08/08/05 125. 26. 27. 255 131072 26/10/06 125. 213. 255 8192 01/03/07 134. 196. 0 134. 255 65536 27/03/92 134. 236. 255 65536 08/08/89 140. 149. 0 140. 255 65536 11/03/11 146. 88. 0 146. 255 8192 28/01/91 147. 50. 0 147. 255 65536 28/01/91 157. 0 157. 255 65536 26/03/92 158. 0 158. 255 65536 25/02/92 159. 0 159. 255 65536 26/05/92 161. 0 161. 255 32768 22/06/92 161. 200. 255 65536 29/01/93 161. 246. 255 65536 30/03/93 164. 115. 0 164. 255 65536 01/03/93 165. 209. 0 165. 255 65536 31/08/93 167. 0 167. 255 8192 08/09/93 168. 0 168. 255 65536 14/04/94 171. 0 171. 255 262144 07/03/11 171. 103. 255 524288 07/03/11 180. 0 180. 255 65536 10/08/09 180. 180. 255 65536 14/09/09 180. 183. 255 65536 16/09/09 180. 214. 255 8192 06/10/09 180. 222. 255 4096 14/10/09 182. 17. 0 182. 255 65536 04/02/10 182. 80. 255 4096 24/02/10 182. 52. 255 131072 25/02/10 182. 93. 255 32768 04/03/10 182. 232. 255 65536 22/04/10 183. 0 183. 89. 255 131072 13/11/09 184. 22. 0 184. 255 65536 01/11/01 184. 255 65536 01/11/01 202. 5. 0 202. 255 4096 28/05/03 202. 6. 16. 255 4096 07/04/11 202. 28. 255 4096 14/10/93 202. 255 8192 14/10/93 202. 255 16384 14/10/93 202. 29. 255 32768 14/10/93 202. 41. 255 8192 27/10/03 202. 43. 255 4096 03/11/05 202. 44. 255 4096 14/05/94 202. 255 16384 24/08/94 202. 255 4096 20/03/00 202. 57. 255 4096 22/02/99 202. 255 8192 21/06/00 202. 60. 255 4096 04/09/01 202. 71. 112. 255 4096 22/07/04 202. 255 4096 28/09/99 202. 255 4096 20/12/04 202. 94. 240. 255 4096 09/09/03 202. 129. 255 8192 17/08/00 202. 255 8192 22/11/01 202. 133. 255 4096 19/12/00 202. 255 4096 06/07/01 202. 255 8192 06/07/01 202. 139. 255 8192 28/06/04 202. 255 8192 27/11/03 202. 255 16384 09/02/10 202. 148. 176. 255 4096 24/06/05 202. 255 8192 07/07/04 202. 151. 255 4096 28/02/06 202. 170. 255 4096 22/11/05 202. 173. 255 4096 25/10/05 202. 255 8192 15/01/04 202. 255 16384 15/01/04 202. 182. 255 4096 29/07/98 202. 255 8192 02/06/00 202. 255 8192 17/02/00 202. 255 4096 23/03/99 202. 255 4096 21/03/97 203. 0 203. 111. 255 4096 01/08/02 203. 107. 255 16384 01/03/00 203. 255 16384 18/11/99 203. 113. 255 8192 22/09/99 203. 255 8192 18/07/00 203. 255 8192 21/04/04 203. 114. 118. 79. 255 4096 30/09/02 203. 255 4096 16/12/02 203. 255 4096 28/02/03 203. 255 4096 10/03/03 203. 255 8192 11/01/01 203. 255 4096 27/03/06 203. 255 8192 09/04/01 203. 255 8192 17/10/00 203. 255 8192 25/05/00 203. 255 4096 02/10/98 203. 146. 255 4096 19/03/97 203. 255 8192 17/07/97 203. 255 8192 03/12/98 203. 255 8192 14/07/99 203. 255 8192 19/11/99 203. 255 8192 07/03/00 203. 255 8192 23/11/00 203. 255 4096 10/11/99 203. 255 8192 22/03/00 203. 255 8192 08/12/98 203. 255 8192 19/08/97 203. 255 4096 13/11/96 203. 255 4096 30/12/96 203. 255 8192 29/12/98 203. 150. 255 32768 12/02/96 203. 255 32768 12/06/96 203. 255 32768 01/07/97 203. 153. 255 4096 18/10/00 203. 255 4096 01/09/05 203. 255 4096 13/09/06 203. 255 32768 18/05/95 203. 255 16384 01/09/95 203. 255 16384 30/10/95 203. 255 32768 25/02/95 203. 255 4096 09/10/96 203. 255 8192 18/11/98 203. 255 16384 18/02/99 203. 156. 255 16384 12/04/02 203. 255 16384 28/05/03 203. 255 65536 15/01/96 203. 158. 255 8192 09/10/95 203. 255 32768 09/10/95 203. 255 16384 30/11/95 203. 255 8192 30/11/95 203. 255 32768 30/11/95 203. 255 16384 03/08/00 203. 255 16384 25/06/01 203. 255 8192 16/12/02 203. 255 16384 16/12/02 203. 255 32768 09/02/10 203. 185. 255 8192 17/11/99 203. 255 8192 24/11/99 203. 188. 255 16384 09/07/04 203. 255 4096 14/11/00 203. 255 4096 18/10/02 203. 195. 255 4096 24/09/03 203. 255 16384 16/10/01 203. 255 16384 24/09/03 210. 0 210. 255 16384 23/11/00 210. 255 8192 15/01/01 210. 86. 255 16384 10/03/03 210. 255 8192 10/03/03 210. 203. 255 16384 06/03/02 210. 255 16384 20/12/04 210. 255 16384 22/06/04 210. 255 32768 22/06/04 222. 123. 0 222. 255 65536 06/09/06 223. 0 223. 255 65536 10/08/10 223. 255 8192 16/08/10 223. 255 16384 01/09/10 223. 204. 255 262144 12/07/10
Public vs. Private IP Addresses: What's the Difference? - Avast

Public vs. Private IP Addresses: What’s the Difference? – Avast

Before we jump into what makes an IP address public or private, let’s discuss what an IP address is in general. Each device connected to the internet has a unique numerical identifier assigned to it — an IP address. IP addresses are how devices and websites communicate with one another, and how the information you’re looking for knows where to find you.
In this article, we’ll deep-dive into the specifics of public and private IP addresses, including how they’re assigned, what their ranges mean, important differences between them, and how you can set up a VPN to secure your IP address and protect your identity.
What is a public IP address?
A public IP address is an IP address that can be accessed directly over the internet and is assigned to your network router by your internet service provider (ISP). Your personal device also has a private IP that remains hidden when you connect to the internet through your router’s public IP.
Using a public IP address to connect to the internet is like using a P. O. box for your snail mail, rather than giving out your home address. It’s a little bit safer, but a lot more visible.
How does a public IP address differ from an external IP address?
The terms public IP address and external IP address are essentially interchangeable. No matter which phrasing you prefer, the function is the same: a public (or external) IP address helps you connect to the internet from inside your network, to outside your network.
Are public IP addresses traceable?
Yes. Public IP addresses can be traced back to your ISP, which can potentially reveal your general geographical location. When advertisers, governments, or hackers know where you’re connecting from, it’s easier for them to follow what you do online.
Websites also use IP tracking to analyze online behavior patterns, making it easier for them to determine if the same individual visits the site repeatedly. Websites can then use these patterns to predict your preferences.
To browse the internet more anonymously, you can hide your IP address by connecting through a security protocol: a proxy server, a VPN, or the Tor browser. You can also try your luck with private browsers, but most of them don’t provide the kind of disguise your IP address needs.
These days, the quickest way to ensure your IP address is safely hidden online is to connect with a VPN. Avast SecureLine VPN will encrypt your connection automatically — keeping your web surfing private, your online banking secure, and your preferences to yourself.
What is a private IP address?
A private IP address is the address your network router assigns to your device. Each device within the same network is assigned a unique private IP address (sometimes called a private network address) — this is how devices on the same internal network talk to each other.
Private IP addresses let devices connected to the same network communicate with one another without connecting to the entire internet. By making it more difficult for an external host or user to establish a connection, private IPs help bolster security within a specific network, like in your home or office. This is why you can print documents via wireless connection to your printer at home, but your neighbor can’t send their files to your printer accidentally.
Local IP addresses are also how your router directs internet traffic internally — in other words, how your router returns search results to your computer rather than another device connected to your network (like your phone or your partner’s phone).
Private vs. local vs. internal IP addresses
Similar to how public IP address and external IP address are interchangeable terms, private IP address and internal IP address are interchangeable terms as well. A private IP address is also often called a local IP address — it’s up to you which term you use.
Are private IP addresses traceable?
Yes, private IP addresses are traceable, but only by other devices on your local network. Each device connected to your local network has a private IP address, and each device’s private IP address can be seen only by other devices within that network. But unlike the public IP address that your router uses to connect your device to the internet, your private IP address cannot be seen online.
Key differences between public and private IP addresses
The main difference between public and private IP addresses is how far they reach, and what they’re connected to. A public IP address identifies you to the wider internet so that all the information you’re searching for can find you. A private IP address is used within a private network to connect securely to other devices within that same network.
Each device within the same network has a unique private IP address.
Public and private IP address ranges
Your private IP address exists within specific private IP address ranges reserved by the Internet Assigned Numbers Authority (IANA) and should never appear on the internet. There are millions of private networks across the globe, all of which include devices assigned private IP addresses within these ranges:
Class A: 10. 0. 0 — 10. 255. 255
Class B: 172. 16. 0 — 172. 31. 255
Class C: 192. 168. 0 — 192. 255
These might not seem like wide ranges, but they don’t really need to be. Because these IP addresses are reserved for private network use only, they can be reused on different private networks all over the world — without consequence or confusion.
And don’t be surprised if you have a device or two at home with a so-called 192 IP address, or a private IP address beginning with 192. This is the most common default private IP address format assigned to network routers around the globe.
Unsurprisingly, the public IP address range encompasses every number not reserved for the private IP range. Since a public IP address is a unique identifier for each device connected to the internet, it needs to be just that: unique.
Summarizing the differences between private and public IP addresses
Public IP address
Private IP address
External (global) reach
Internal (local) reach
Used for communicating outside your private network, over the internet
Used for communicating within your private network, with other devices in your home or office
A unique numeric code never reused by other devices
A non-unique numeric code that may be reused by other devices in other private networks
Found by Googling: “What is my IP address? ”
Found via your device’s internal settings
Assigned and controlled by your internet service provider
Assigned to your specific device within a private network
Not free
Free
Any number not included in the reserved private IP address range
Example: 8. 8. 8.
10. 255;172. 255; 192. 255
Example: 10. 11. 12. 13
How can I check which type of IP address I’m using?
When you connect to the internet, your private IP address is replaced with your ISP-assigned public IP address. This protects your private IP and other devices in your network, while also ensuring you can still connect online. Both types of IP addresses are important for your device’s connection to the outside world — but how do you find them?
The easiest way to find your public IP address is to Google: “What is my IP address? ” Depending on your ISP, you might see both an IPv4 and IPv6 address listed due to the increasing use of IPv6 addresses over IPv4. You can find your private IP address on Windows or macOS with a few quick clicks.
As you learn about private and public IP addresses, remember that they may change. If your ISP assigns you a dynamic IP address vs. a static IP address, for example, you might be subject to more network outages or connectivity issues in the long run.
And if you need to use a VPN to connect to the internet, your public IP address will change each time you connect — each new connection is encrypted to hide your IP address and keep prying eyes away.
A VPN encrypts your public IP address for better security and privacy online.
Keep your IP address truly under wraps with Avast SecureLine VPN
At the end of the day, the reason your public IP address works for you is the same reason it may work against you: it’s completely visible online. The best way to protect your real IP address is to use a VPN, which routes all your online traffic through a separate server nowhere near your actual location.
Connect via VPN to keep your IP address hidden, encrypt your connection, or even to bypass geolocation restrictions to access your favorite content online. No matter what you use it for, you can be sure that Avast SecureLine VPN will disguise your real IP address — while keeping your entire connection secure and lightning-fast.
How Do IP Addresses Work? - HowToGeek

How Do IP Addresses Work? – HowToGeek

Every device connected to a network—computer, tablet, camera, whatever—needs a unique identifier so that other devices know how to reach it. In the world of TCP/IP networking, that identifier is the Internet Protocol (IP) address.
If you’ve worked with computers for any amount of time, you’ve likely been exposed to IP addresses—those numerical sequences that look something like 192. 168. 0. 15. Most of the time, we don’t have to deal with them directly, since our devices and networks take care of that stuff behind the scenes. When we do have to deal with them, we often just follow instructions about what numbers to put where. But, if you’ve ever wanted to dive a little deeper into what those numbers mean, this article is for you.
RELATED: 8 Common Network Utilities Explained
Why should you care? Well, understanding how IP addresses work is vital if you ever want to troubleshoot why your network isn’t working right, or why a particular device isn’t connecting the way you’d expect it to. And, if you ever need to set up something a little more advanced—like hosting a game server or media server to which friends from the internet can connect—you’ll need to know something about IP addressing. Plus, it’s kind of fascinating.
Note: We’re going to be covering the basics of IP addressing in this article, the kind of stuff that people who use IP addresses, but never really thought much about them, might want to know. We’re not going to be covering some of the more advanced, or professional, level stuff, like IP classes, classless routing, and custom subnetting…but we will point to some sources for further reading as we go along.
What Is an IP Address?
An IP address uniquely identifies a device on a network. You’ve seen these addresses before; they look something like 192. 1. 34.
An IP address is always a set of four numbers like that. Each number can range from 0 to 255. So, the full IP addressing range goes from 0. 0 to 255. 255. 255.
The reason each number can only reach up to 255 is that each of the numbers is really an eight digit binary number (sometimes called an octet). In an octet, the number zero would be 00000000, while the number 255 would be 11111111, the maximum number the octet can reach. That IP address we mentioned before (192. 34) in binary would look like this: 11000000. 10101000. 00000001. 00100010.
Computers work with the binary format, but we humans find it much easier to work with the decimal format. Still, knowing that the addresses are actually binary numbers will help us understand why some things surrounding IP addresses work the way they do.
Don’t worry, though! We’re not going to be throwing a lot of binary or math at you in this article, so just bear with us a bit longer.
The Two Parts of An IP Address
A device’s IP address actually consists of two separate parts:
Network ID: The network ID is a part of the IP address starting from the left that identifies the specific network on which the device is located. On a typical home network, where a device has the IP address 192. 34, the 192. 1 part of the address will be the network ID. It’s custom to fill in the missing final part with a zero, so we might say that the network ID of the device is 192. 0.
Host ID: The host ID is the part of the IP address not taken up by the network ID. It identifies a specific device (in the TCP/IP world, we call devices “hosts”) on that network. Continuing our example of the IP address 192. 34, the host ID would be 34—the host’s unique ID on the 192. 0 network.
On your home network, then, you might see several devices with IP address like 192. 1, 192. 2, 192. 1 30, and 192. 34. All of these are unique devices (with host IDs 1, 2, 30, and 34 in this case) on the same network (with the network ID 192. 0).
To picture all this a little better, let’s turn to an analogy. It’s pretty similar to how street addresses work within a city. Take an address like 2013 Paradise Street. The street name is like the network ID, and the house number is like the host ID. Within a city, no two streets will be named the same, just like no two network IDs on the same network will be named the same. On a particular street, every house number is unique, just like all host iDs within a particular network ID are unique.
The Subnet Mask
So, how does your device determine which part of the IP address is the network ID and which part the host ID? For that, they use a second number that you’ll always see in association with an IP address. That number is called the subnet mask.
On most simple networks (like the ones in homes or small businesses), you’ll see subnet masks like 255. 0, where all four numbers are either 255 or 0. The position of the changes from 255 to 0 indicate the division between the network and host ID. The 255s “mask out” the network ID from the equation.
Note: The basic subnet masks we’re describing here are known as default subnet masks. Things get more complicated than this on bigger networks. People often use custom subnet masks (where the position of the break between zeros and ones shifts within an octet) to create multiple subnets on the same network. That’s a little beyond the scope of this article, but if you’re interested, Cisco has a pretty good guide on subnetting.
The Default Gateway Address
RELATED: Understanding Routers, Switches, and Network Hardware
In addition to the IP address itself and the associated subnet mask, you’ll also see a default gateway address listed along with IP addressing information. Depending on the platform you’re using, this address might be called something different. It’s sometimes called the “router, ” “router address, ” default route, ” or just “gateway. ” These are all the same thing. It’s the default IP address to which a device sends network data when that data is intended to go to a different network (one with a different network ID) than the one the device is on.
The simplest example of this is found in a typical home network.
If you have a home network with multiple devices, you likely have a router that’s connected to the internet through a modem. That router might be a separate device, or it might be part of a modem/router combo unit supplied by your internet provider. The router sits between the computers and devices on your network and the more public-facing devices on the internet, passing (or routing) traffic back and forth.
Say you fire up your browser and head to. Your computer sends a request to our site’s IP address. Since our servers are on the internet rather than on your home network, that traffic is sent from your PC to your router (the gateway), and your router forwards the request on to our server. The server sends the right information back to your router, which then routes the information back to the device that requested it, and you see our site pop up in your browser.
Typically, routers are configured by default to have their private IP address (their address on the local network) as the first host ID. So, for example, on a home network that uses 192. 0 for a network ID, the router is usually going to be 192. Of course, like most things, you can configure that to be something different if you want.
RELATED: How to Find Your Private and Public IP Addresses
DNS Servers
There’s one final piece of information you’ll see assigned alongside a device’s IP address, subnet mask, and default gateway address: the addresses of one or two default Domain Name System (DNS) servers. We humans work much better with names than numerical addresses. Typing into your browser’s address bar is much easier than remembering and typing our site’s IP address.
DNS works kind of like a phone book, looking up human-readable things like website names, and converting those to IP addresses. DNS does this by storing all that information on a system of linked DNS servers across the internet. Your devices need to know the addresses of DNS servers to which to send their queries.
RELATED: What Is DNS, and Should I Use Another DNS Server?
On a typical small or home network, the DNS server IP addresses are often the same as the default gateway address. Devices send their DNS queries to your router, which then forwards the requests on to whatever DNS servers the router is configured to use. By default, these are usually whatever DNS servers your ISP provides, but you can change those to use different DNS servers if you want. Sometimes, you might have better success using DNS servers provided by third parties, like Google or OpenDNS.
What’s the Difference Between IPv4 and IPv6?
You also may have noticed while browsing through settings a different type of IP address, called an IPv6 address. The types of IP addresses we’ve talked about so far are addresses used by IP version 4 (IPv4)—a protocol developed in the late 70s. They use the 32 binary bits we talked about (in four octets) to provide a total of 4. 29 billion possible unique addresses. While that sounds like a lot, all the publicly available addresses were long ago assigned to businesses. Many of them are unused, but they are assigned and unavailable for general use.
In the mid-90s, worried about the potential shortage of IP addresses, the internet Engineering Task Force (IETF) designed IPv6. IPv6 uses a 128-bit address instead of the 32-bit address of IPv4, so the total number of unique addresses is measured in the undecillions—a number big enough that it’s unlikely to ever run out.
Unlike the dotted decimal notation used in IPv4, IPv6 addresses are expressed as eight number groups, divided by colons. Each group has four hexadecimal digits that represents 16 binary digits (so, it’s referred to as a hextet). A typical IPv6 address might look something like this:
2601:7c1:100:ef69:b5ed:ed57:dbc0:2c1e
The thing is, the shortage of IPv4 addresses that caused all the concern ended up being mitigated to a large extent by the increased use of private IP addresses behind routers. More and more people created their own private networks, using those private IP addresses that aren’t exposed publicly.
So, even though IPv6 is still a major player and that transition will still happen, it never happened as fully as predicted—at least not yet. If you’re interested in learning more, check out this history and timeline of IPv6.
How Does a Device Get Its IP Address?
Now that you know the basics of how IP addresses work, let’s talk about how devices get their IP addresses in the first place. There are really two types of IP assignments: dynamic and static.
RELATED: How to Find Any Device’s IP Address, MAC Address, and Other Network Connection Details
A dynamic IP address is assigned automatically when a device connects to a network. The vast majority of networks today (including your home network) use something called Dynamic Host Configuration Protocol (DHCP) to make this happen. DHCP is built into your router. When a device connects to the network, it sends out a broadcast message requesting an IP address. DHCP intercepts this message, and then assigns an IP address to that device from a pool of available IP addresses.
There are certain private IP address ranges routers will use for this purpose. Which is used depends on who made your router, or how you have set things up yourself. Those private IP ranges include:
10. 0 – 10. 255: If you’re a Comcast/Xfinity customer, the router provided by your ISP assigns addresses in this range. Some other ISPs also use these addresses on their routers, as does Apple on their AirPort routers.
192. 0 – 192. 255: Most commercial routers are set up to assign IP addresses in this range. For example, most Linksys routers use the 192. 0 network, while D-Link and Netgear both use the 198. 0 range
172. 16. 0 – 172. 255: This range is rarely used by any commercial vendors by default.
169. 254. 0 – 169. 255: This is a special range used by a protocol named Automatic Private IP Addressing. If your computer (or other device) is set up to retrieve its IP address automatically, but cannot find a DHCP server, it assigns itself an address in this range. If you see one of these addresses, it tells you that your device could not reach the DHCP server when it came time to get an IP address, and you may have a networking issue or trouble with your router.
The thing about dynamic addresses is that they can sometimes change. DHCP servers lease IP addresses to devices, and when those leases are up, the devices must renew the lease. Sometimes, devices will get a different IP address from the pool of addresses the server can assign.
Most of the time, this is not a big deal, and everything will “just work”. Occasionally, however, you might want to give a device an IP address that does not change. For example, maybe you have a device that you need to access manually, and you find it easier to remember an IP address than a name. Or maybe you have certain apps that can only connect to network devices using their IP address.
In those cases, you can assign a static IP address to those devices. There are a couple of ways to do this. You can manually configure the device with a static IP address yourself, although this can sometimes be janky. The other, more elegant solution is to configure your router to assign static IP addresses to certain devices during what would normally be dynamic assignment by the DHCP server. That way, the IP address never changes, but you don’t interrupt the DHCP process that keeps everything working smoothly.
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Frequently Asked Questions about ip range thailand

What is the IP of Thailand?

Thailand IP Address RangesBegin IP AddressEnd IP AddressTotal Count1.2.128.01.2.255.255321.20.0.01.20.255.255651.4.128.01.4.255.255321.46.0.01.47.255.255131155 more rows

What are the 3 public IP address ranges?

Public and private IP address rangesClass A: 10.0. 0.0 — 10.255. 255.255.Class B: 172.16. 0.0 — 172.31. 255.255.Class C: 192.168. 0.0 — 192.168. 255.255.Apr 22, 2021

What is the range of IP addresses?

An IP address is always a set of four numbers like that. Each number can range from 0 to 255. So, the full IP addressing range goes from 0.0. 0.0 to 255.255.Feb 12, 2018

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