1- Go to Google.
2- In the search field type: "Product name" 94FBR
3- Where, "Product Name" is the name of the item you want to find the serial number for.
4- And voila - there you go - the serial number you needed.
HOW DOES THIS WORK?
Quite simple really. 94FBR is part of a Office 2000 Pro cd key that is widely distributed as it bypasses the activation requirements of Office 2K Pro. By searching for the product name and 94fbr, you guarantee two things. 1) The pages that are returned are pages dealing specifically with the product you're wanting a serial for. 2) Because 94FBR is part of a serial number, and only part of a serial number, you guarantee that any page being returned is a serial number list page.
See these example searches:
"Photoshop 7" 94FBR
"Age of Mythology" 94FBR
"Nero Burning Rom 5.5" 94FBR
Friday, August 14, 2009
Can we entertain ourselves without DishTV or Tatasky YES?
We all pay hundreds of rupees per month to entertain ourselves from satellite TV channels. But if we think deep and spend wisely, we may be able to avoid dish TV or Tatasky etc and save money. Three 6ft dishes might do the job for us. Dish1, Thaicom @78E based can give us (C-Asiasat 3S@ 105E, Insat 4B@ 93E ku, NSS@ 96E ku. C-Yamal@ 90E, Yamal@ 90E ku, C- Insat 4E@ 83E, Insat 4E@ 83E ku, lmi@ 75E & C-Panamsat@ 68E) Dish2, C-Yamal@ 49E based, Turksat@ 42E ku & C-Paksat@ 38E. Dish3, Hotbird@ 13E ku based, Eurobird9@ 9E ku, EutelsatW3@ 7E ku & Eurobird2@ 25.5E.
The above described 3 dishes can roughly give us about 20 satellites which cover the main genres we like to watch, are the following.
1) NEWS
2) MOVIES
3) MUSIC
4) GENERAL ENTETAINMENT
5) RELIGIOUS
6) SPORTS
7) INFOTAINMENT (ANIMALS)
8) KIDS
9) HEALTH
10) ADULT CHANNELS
1) NEWS: (BBC world, Euronews, France24, DW TV, CCTV, CNN, VOA, Aljazeera international, Russia Today, Press TV Iran 13E). (DD news, VOI, Live India, India TV, etc 93E). (Geo News, Aaj News, News one, Sahra package etc 105E).(Khyber news, Ary oneworld, Express, Express24, Waqt, Dawn, Sama etc 68E) is enough news.
2) MOVIES English & Russian: (Starlite TV, Filmax, PSI, MV TV Mix etc 78E). (Ren TV1, Ren TV2, NTV2, NTV4, TNT2, TNT4 etc 90E ku). (TVC international, TVC Euro, TV Zvezda, Saba1 etc 49E). (TNT germany 9E) and many more are enough FTA movies channels to enjoy.
MOVIES Indian & Pakistanis: (B4u movies 9E). (DD National, Enterr 10, 9x, Zee music, Zee smile, DD India, DD Baharati, Star Utsav etc 93E ku). (Manoranjan TV, Lemon TV C-83E). (Silver Screen, Filmazia C-78E). (DM Arabia 13E) and many more are enough movies to entertain us.
3) MUSIC: (B4u music, Zee music, MH1 music, Music India, ETC, 9xm etc 93E ku). (Joo music, Terai music 78E). (Lehren, Mahua, Yo music,SS TV etc C-83E). (Love Music C-76E) are enough FTA music channels.
4) GENERAL ENTETAINMENT: (TV one, Hum TV, Masala TV, NOW TV, Sun TV, Waseb TV etc C-105E). (9x 93E ku). (HSN 18 C-83E) (AVT Khyber, ARY Asia, DM digital, KBC, Ujala TV etc C-68E). (Fun TV, Kashish, Apna channel, KTN, TV South Asia etc C-78E) are enough fta entertainment channels to enjoy.
5) RELIGIOUS: (Peace TV, Noor TV, Ary QTV C-68E). (Madani TV C-105E). (Islam TV, IRIB Quran, Saudi 1, KSA 2, Al-Iqraa TV etc 13E ku). (Hadi TV C-78E). (Labbaik Tv , Haq TV C-38E) are good religious FTA channels.
6) SPORTS: (ART Prime Sports, Sports TV, Planeta Sports BISS KEYS C-49E). (Abu dhabi Sports, Dubai Sports, Super Tennis, Rai Sports, Arraida, Physique TV, Sports Channel 13E ku). (NTV Sports, TRT 3, 42E ku). (DD Sports 93E ku) might be enough fta sports Channels for our sports fans.
7) INFOTAINMENT (ANIMALS): (Zoo Park 75E ku FTA) is the one genre which has not enough fta channels.
8) KIDS: (Wikkids plus, C-38E). (Gang cartoon C-78E). (Nickelodeon 25.5E ku). (Spacetoon C-83E). (2*2, Gameplay 75E ku). (Cartoon Network 9E ku). (Chutti TV C-93E). are enough fta Joy for kids.
9) HEALTH: (Shakti TV, Care world C-78E) may be a bit too less fta channels to enjoy.
10) ADULT CHANNELS: (Tu tele local, Opal TV are xxx Channels 9E ku). (REN TV 1, REN TV 2 C-49E)
The above described 3 dishes can roughly give us about 20 satellites which cover the main genres we like to watch, are the following.
1) NEWS
2) MOVIES
3) MUSIC
4) GENERAL ENTETAINMENT
5) RELIGIOUS
6) SPORTS
7) INFOTAINMENT (ANIMALS)
8) KIDS
9) HEALTH
10) ADULT CHANNELS
1) NEWS: (BBC world, Euronews, France24, DW TV, CCTV, CNN, VOA, Aljazeera international, Russia Today, Press TV Iran 13E). (DD news, VOI, Live India, India TV, etc 93E). (Geo News, Aaj News, News one, Sahra package etc 105E).(Khyber news, Ary oneworld, Express, Express24, Waqt, Dawn, Sama etc 68E) is enough news.
2) MOVIES English & Russian: (Starlite TV, Filmax, PSI, MV TV Mix etc 78E). (Ren TV1, Ren TV2, NTV2, NTV4, TNT2, TNT4 etc 90E ku). (TVC international, TVC Euro, TV Zvezda, Saba1 etc 49E). (TNT germany 9E) and many more are enough FTA movies channels to enjoy.
MOVIES Indian & Pakistanis: (B4u movies 9E). (DD National, Enterr 10, 9x, Zee music, Zee smile, DD India, DD Baharati, Star Utsav etc 93E ku). (Manoranjan TV, Lemon TV C-83E). (Silver Screen, Filmazia C-78E). (DM Arabia 13E) and many more are enough movies to entertain us.
3) MUSIC: (B4u music, Zee music, MH1 music, Music India, ETC, 9xm etc 93E ku). (Joo music, Terai music 78E). (Lehren, Mahua, Yo music,SS TV etc C-83E). (Love Music C-76E) are enough FTA music channels.
4) GENERAL ENTETAINMENT: (TV one, Hum TV, Masala TV, NOW TV, Sun TV, Waseb TV etc C-105E). (9x 93E ku). (HSN 18 C-83E) (AVT Khyber, ARY Asia, DM digital, KBC, Ujala TV etc C-68E). (Fun TV, Kashish, Apna channel, KTN, TV South Asia etc C-78E) are enough fta entertainment channels to enjoy.
5) RELIGIOUS: (Peace TV, Noor TV, Ary QTV C-68E). (Madani TV C-105E). (Islam TV, IRIB Quran, Saudi 1, KSA 2, Al-Iqraa TV etc 13E ku). (Hadi TV C-78E). (Labbaik Tv , Haq TV C-38E) are good religious FTA channels.
6) SPORTS: (ART Prime Sports, Sports TV, Planeta Sports BISS KEYS C-49E). (Abu dhabi Sports, Dubai Sports, Super Tennis, Rai Sports, Arraida, Physique TV, Sports Channel 13E ku). (NTV Sports, TRT 3, 42E ku). (DD Sports 93E ku) might be enough fta sports Channels for our sports fans.
7) INFOTAINMENT (ANIMALS): (Zoo Park 75E ku FTA) is the one genre which has not enough fta channels.
8) KIDS: (Wikkids plus, C-38E). (Gang cartoon C-78E). (Nickelodeon 25.5E ku). (Spacetoon C-83E). (2*2, Gameplay 75E ku). (Cartoon Network 9E ku). (Chutti TV C-93E). are enough fta Joy for kids.
9) HEALTH: (Shakti TV, Care world C-78E) may be a bit too less fta channels to enjoy.
10) ADULT CHANNELS: (Tu tele local, Opal TV are xxx Channels 9E ku). (REN TV 1, REN TV 2 C-49E)
HOW TO SELECT THE BEST LNB FOR YOUR DIGITAL SATELLITE SYSTEM
with thanks to: Don Filmer Vice President, Engineering NII Norsat International Inc.
Over the past few years satellite systems have been replacing the traditional FM or FSK transmission systems with more complex digital modulations formats such as BPSK and QPSK. These digital forms of modulation enable the satellites to deliver more information in the same satellite capacity that was used to deliver the older analogue formats and with an improvement in the quality of the delivered signal. To say it another way, digital modulated signals can deliver a greater amount of data, with fewer errors, and using less of the satellites capacity than previous analog modulation systems. In order to take full advantage of the benefits of the more efficient digital modulation systems the LNB used in the receiver terminal must be matched to the digital signal characteristics. From a technical perspective there are more than fifty individual parameters that should be considered when making an LNB selection. RF leakage, rejection of transmit signals, in-band spurious performance, out-of-band spurious performance, long term aging effects, vibration effects, corrosion resistance, connector types, intermodulation performance, dynamic range considerations, environmental effects, reliability concerns and the list goes on. There is however a few key specifications that need to be addressed before getting into the finer details of an LNB.
Noise Figure
The noise figure of the LNB is a measurement of how sensitive the LNB is or how much noise the LNB will add to the signal you may be intending to receive. The lower the noise figure of the LNB the better the LNB will be able to receive weaker signals. For a C-band LNB that cover the frequency range of 3.4 to 4.2 GHz the noise figure is expressed in Kelvin or K. Kelvin is a scientific unit of measurement that relates absolute “ZERO” or the level of molecular activity. Many people refer to degrees Kelvin but that is technically incorrect. Kelvin is a unit of mea- surement on it’s own and is not related to degrees on it’s own. “0” Kelvin represents the level of no molecular activity or no noise in a system or substance. A very good number for a C-band.
LNB would be 15 Kelvin a more typical number 30 Kelvin. Unlike C-band, the noise figure of Ku-band (10.7 to 12.7 GHz) LNBs are expressed in decibels or “dB.” It is possible to convert between Kelvin and dB using a set of formulas for comparison purposes if need be. A good
point of reference however is 35 Kelvin = 0.5 dB. A very good noise figure for a Ku-band LNB would be 0.6 dB but a more typical value would be 0.8 dB.
Gain The gain of an LNB is amount the LNB will amplify the input signal which is expressed in dB. The input signal is very weak when it arrives at the receiving antenna and must be amplified many time before it can be transported down a coaxial cable. If the signal is not amplified the signal would be absorbed by the losses in the coaxial cable and never reaches the receiver. When selecting an LNB for a digital system it is important that the gain does not change significantly with temperature or over the received frequency range as digital systems are much more sensitive to these changes than previous analogue systems.
Digital systems typically require an LNB gain to be 55 dB to 65 dB under all conditions. Gain flatness across a 500 or 800 MHz band should be better than ±5.0 dB and less than ±1.0 dB in 27 MHz segments. Variations greater than this can introduce gain distortion onto the incoming signals resulting in reduced receiver performance.
Local Oscillator Frequency Stability
There are three main types of frequency conversion oscillators used in LNBs:
1. Dielectric Resonant Oscillator (DRO) Types – The LNBs conversion oscillator frequency is determined by a free running oscillator whose frequency determining element is a piece of feroceramic material referred to as a puck.
2. Phase Locked Loop (PLL)Types – The LNBs conversion oscillator frequency is determined by an internal located temperature compensated crystal oscillator and a digital phase locking circuit.
3. External Referenced Phase Locked Types - The LNBs conversion oscillators frequency is determined by a reference oscillator located outside of the LNB and is usually provide over the center conductor of the coaxial cable that connects the LNB to the receiver. It is usually the responsibility of the satellite receiver to provide this reference signal to the LNB. The reference frequency in most cases is 10MHz. Different types and bandwidths of digital signals will require LNBs with different frequency stability in order to provide optimum receiver performance.
A wideband signal such as an MPEG II television broadcast will require an LNB with low frequency selectivity because the transmitted signal occupies quite a wide bandwidth and the
receiver tuning can be wider. A narrow band SCPC radio broadcast uses a very narrow signal and will require a high stability PLL type so that the receiver is able to track the signal.
LNB PHASE NOISE PERFORMANCE:
The phase noise specification of an LNB is an indication of the level of noise introduced on to the received signal at various frequency distances from the converted carrier. This noise is generated by the conversion oscillator within the LNB and is a direct function of the quality of that oscillator. The phase noise specification of an LNB is defined at 100Hz, 1.0kHz, 10kHz, 100kHz and 1.0MHz distances from the center frequency of the converted frequency.
In a digital system the bit error rate (BER) of the receiver will be directly affected by the level of the phase noise in the received signal. The higher the phase noise level the more errors there will be in the received signal.
SUSCEPTIBILITY TO MICROPHONICS
When an LNB is installed on an antenna it will be subjected to environmental factors such as wind, rain, and hail. Rain or hail hitting the LNB will cause small disturbances in the electrical performance of the LNB. Wind will move or vibrate the antenna which causes a similar effect. These disturbances are then superimposed or modulated onto the incoming signal.
It is not uncommon for these disturbances to distort the incoming signal such that the incoming signal cannot be received. The local oscillator in the LNB is the circuit most commonly affected by these disturbances. Great care must be taken in the mechanical and electrical design of an LNB to minimize this effect. In the early days of radio, unwanted vibrations applied to the receiving equipment would show up in the demodulated audio as sounds, and were thus referred to as Microphonics because they behaved in much the same way as a microphone would. Today this effect is still referred to as Microphonics.
There are no standards or units of measurement associated with evaluating an LNB’s sensitivity to Microphonics. Some people use simulated rain drops, some use a specialized tool they have developed, some use very elaborate shock table setups; while others just use a screw driver to tap on the LNB to check how the received signal is affected. The method used is dictated by the individual system designer.
INPUT VSWR
VSWR is an abbreviation for Voltage Standing Wave Ratio which can also be referred to as Return Loss. The technical description of VSWR is the ratio of incident voltage or primary wave of voltage present on a transmission line or waveguide versus any reflected voltage on that line that may be present as a result of a mismatch condition
In a perfect situation where the transmission line (feed) is absolutely matched to the load (LNB) there would be no reflected voltage and the VSWR would be stated as being 1:1 or a perfect match. As with most things this is not the case in the real world. Variations of electrical and physical parameters on the transmission line and the load are seldom perfectly matched. This mismatch will result in some of the energy contained in the primary wave (the received signal) being reflected back from the load (LNB) and lost. To make things worse the reflected wave will also interfere with the incident (incoming) wave causing the signal to be reduced as well.
It is most important to maintain a good match between the feed and the LNB in order to ensure that the maximum amount of signal is transferred to the LNB. The chart below shows approximate effects of VSWR on measured noise figures or temperatures of an LNB. An LNB with a measured C band noise figure (NF) of 30 K is used as an example.
As you can see, the effect of VSWR on the noise figure of an LNB can be substantial. Therefore it is most important to consider the effects of VSWR when making your LNB selection.
SOME EXAMPLES OF LNB APPLICATIONS
There are many applications where selecting the correct LNB will make the difference between a system operating to it’s full potential and providing far less then satisfactory performance. Listed below are examples of some applications and the types of LNB which will provide the best performance:
Satellite digital paging networks require a high stability PLL or even External Reference PLL LNB such as the Norsat 1000 or 3000 series LNB.
MPEG II digital video applications require high stability DRO LNBs such as the Norsat 4000 series.
VSAT and Point of Sale (POS) systems may use a DRO LNB but most users prefer a PLL to ensure the
highest possible system reliability.
Radio and TV broadcast stations use PLL types to ensure the most reliable performance of their station.
Satellite News Gathering (SNG) trucks use Norsat 1000 Series PLL LNBs for the most reliable
performance in the worst conditions.
Over the past few years satellite systems have been replacing the traditional FM or FSK transmission systems with more complex digital modulations formats such as BPSK and QPSK. These digital forms of modulation enable the satellites to deliver more information in the same satellite capacity that was used to deliver the older analogue formats and with an improvement in the quality of the delivered signal. To say it another way, digital modulated signals can deliver a greater amount of data, with fewer errors, and using less of the satellites capacity than previous analog modulation systems. In order to take full advantage of the benefits of the more efficient digital modulation systems the LNB used in the receiver terminal must be matched to the digital signal characteristics. From a technical perspective there are more than fifty individual parameters that should be considered when making an LNB selection. RF leakage, rejection of transmit signals, in-band spurious performance, out-of-band spurious performance, long term aging effects, vibration effects, corrosion resistance, connector types, intermodulation performance, dynamic range considerations, environmental effects, reliability concerns and the list goes on. There is however a few key specifications that need to be addressed before getting into the finer details of an LNB.
Noise Figure
The noise figure of the LNB is a measurement of how sensitive the LNB is or how much noise the LNB will add to the signal you may be intending to receive. The lower the noise figure of the LNB the better the LNB will be able to receive weaker signals. For a C-band LNB that cover the frequency range of 3.4 to 4.2 GHz the noise figure is expressed in Kelvin or K. Kelvin is a scientific unit of measurement that relates absolute “ZERO” or the level of molecular activity. Many people refer to degrees Kelvin but that is technically incorrect. Kelvin is a unit of mea- surement on it’s own and is not related to degrees on it’s own. “0” Kelvin represents the level of no molecular activity or no noise in a system or substance. A very good number for a C-band.
LNB would be 15 Kelvin a more typical number 30 Kelvin. Unlike C-band, the noise figure of Ku-band (10.7 to 12.7 GHz) LNBs are expressed in decibels or “dB.” It is possible to convert between Kelvin and dB using a set of formulas for comparison purposes if need be. A good
point of reference however is 35 Kelvin = 0.5 dB. A very good noise figure for a Ku-band LNB would be 0.6 dB but a more typical value would be 0.8 dB.
Gain The gain of an LNB is amount the LNB will amplify the input signal which is expressed in dB. The input signal is very weak when it arrives at the receiving antenna and must be amplified many time before it can be transported down a coaxial cable. If the signal is not amplified the signal would be absorbed by the losses in the coaxial cable and never reaches the receiver. When selecting an LNB for a digital system it is important that the gain does not change significantly with temperature or over the received frequency range as digital systems are much more sensitive to these changes than previous analogue systems.
Digital systems typically require an LNB gain to be 55 dB to 65 dB under all conditions. Gain flatness across a 500 or 800 MHz band should be better than ±5.0 dB and less than ±1.0 dB in 27 MHz segments. Variations greater than this can introduce gain distortion onto the incoming signals resulting in reduced receiver performance.
Local Oscillator Frequency Stability
There are three main types of frequency conversion oscillators used in LNBs:
1. Dielectric Resonant Oscillator (DRO) Types – The LNBs conversion oscillator frequency is determined by a free running oscillator whose frequency determining element is a piece of feroceramic material referred to as a puck.
2. Phase Locked Loop (PLL)Types – The LNBs conversion oscillator frequency is determined by an internal located temperature compensated crystal oscillator and a digital phase locking circuit.
3. External Referenced Phase Locked Types - The LNBs conversion oscillators frequency is determined by a reference oscillator located outside of the LNB and is usually provide over the center conductor of the coaxial cable that connects the LNB to the receiver. It is usually the responsibility of the satellite receiver to provide this reference signal to the LNB. The reference frequency in most cases is 10MHz. Different types and bandwidths of digital signals will require LNBs with different frequency stability in order to provide optimum receiver performance.
A wideband signal such as an MPEG II television broadcast will require an LNB with low frequency selectivity because the transmitted signal occupies quite a wide bandwidth and the
receiver tuning can be wider. A narrow band SCPC radio broadcast uses a very narrow signal and will require a high stability PLL type so that the receiver is able to track the signal.
LNB PHASE NOISE PERFORMANCE:
The phase noise specification of an LNB is an indication of the level of noise introduced on to the received signal at various frequency distances from the converted carrier. This noise is generated by the conversion oscillator within the LNB and is a direct function of the quality of that oscillator. The phase noise specification of an LNB is defined at 100Hz, 1.0kHz, 10kHz, 100kHz and 1.0MHz distances from the center frequency of the converted frequency.
In a digital system the bit error rate (BER) of the receiver will be directly affected by the level of the phase noise in the received signal. The higher the phase noise level the more errors there will be in the received signal.
SUSCEPTIBILITY TO MICROPHONICS
When an LNB is installed on an antenna it will be subjected to environmental factors such as wind, rain, and hail. Rain or hail hitting the LNB will cause small disturbances in the electrical performance of the LNB. Wind will move or vibrate the antenna which causes a similar effect. These disturbances are then superimposed or modulated onto the incoming signal.
It is not uncommon for these disturbances to distort the incoming signal such that the incoming signal cannot be received. The local oscillator in the LNB is the circuit most commonly affected by these disturbances. Great care must be taken in the mechanical and electrical design of an LNB to minimize this effect. In the early days of radio, unwanted vibrations applied to the receiving equipment would show up in the demodulated audio as sounds, and were thus referred to as Microphonics because they behaved in much the same way as a microphone would. Today this effect is still referred to as Microphonics.
There are no standards or units of measurement associated with evaluating an LNB’s sensitivity to Microphonics. Some people use simulated rain drops, some use a specialized tool they have developed, some use very elaborate shock table setups; while others just use a screw driver to tap on the LNB to check how the received signal is affected. The method used is dictated by the individual system designer.
INPUT VSWR
VSWR is an abbreviation for Voltage Standing Wave Ratio which can also be referred to as Return Loss. The technical description of VSWR is the ratio of incident voltage or primary wave of voltage present on a transmission line or waveguide versus any reflected voltage on that line that may be present as a result of a mismatch condition
In a perfect situation where the transmission line (feed) is absolutely matched to the load (LNB) there would be no reflected voltage and the VSWR would be stated as being 1:1 or a perfect match. As with most things this is not the case in the real world. Variations of electrical and physical parameters on the transmission line and the load are seldom perfectly matched. This mismatch will result in some of the energy contained in the primary wave (the received signal) being reflected back from the load (LNB) and lost. To make things worse the reflected wave will also interfere with the incident (incoming) wave causing the signal to be reduced as well.
It is most important to maintain a good match between the feed and the LNB in order to ensure that the maximum amount of signal is transferred to the LNB. The chart below shows approximate effects of VSWR on measured noise figures or temperatures of an LNB. An LNB with a measured C band noise figure (NF) of 30 K is used as an example.
As you can see, the effect of VSWR on the noise figure of an LNB can be substantial. Therefore it is most important to consider the effects of VSWR when making your LNB selection.
SOME EXAMPLES OF LNB APPLICATIONS
There are many applications where selecting the correct LNB will make the difference between a system operating to it’s full potential and providing far less then satisfactory performance. Listed below are examples of some applications and the types of LNB which will provide the best performance:
Satellite digital paging networks require a high stability PLL or even External Reference PLL LNB such as the Norsat 1000 or 3000 series LNB.
MPEG II digital video applications require high stability DRO LNBs such as the Norsat 4000 series.
VSAT and Point of Sale (POS) systems may use a DRO LNB but most users prefer a PLL to ensure the
highest possible system reliability.
Radio and TV broadcast stations use PLL types to ensure the most reliable performance of their station.
Satellite News Gathering (SNG) trucks use Norsat 1000 Series PLL LNBs for the most reliable
performance in the worst conditions.
Free GPRS Internet on Zong - Step by Step Setting
1. First of all you will have to activate GPRS on your Zong number…if you are already subscribed, then skip point 1, 2 and 3
2. Send an SMS AllMakeModel and send to 131
3. In response, you will get GPRS setting, simply save this setting; at this point your GPRS has been activated on your Zong.
4. Now make sure that you have no balance in your account,
5. Go into phone browser
6. And Start browsing…lol yea that’s it... (In case you receive any error, don’t give up, try 5/6 times and you will be connected…
Very Important Note: Someone on another forum used Free GPRS on Zong through this method has reported that he was charged for GPRS on next card load, however, many others are saying that they were not charged and they use this FREE GPRS smoothly. So be careful… On other hands, spend Rs. 200 on Zong SIM and then forget about recharging it… ; -) keep on Using Free GPRS until its available
2. Send an SMS All
3. In response, you will get GPRS setting, simply save this setting; at this point your GPRS has been activated on your Zong.
4. Now make sure that you have no balance in your account,
5. Go into phone browser
6. And Start browsing…lol yea that’s it... (In case you receive any error, don’t give up, try 5/6 times and you will be connected…
Very Important Note: Someone on another forum used Free GPRS on Zong through this method has reported that he was charged for GPRS on next card load, however, many others are saying that they were not charged and they use this FREE GPRS smoothly. So be careful… On other hands, spend Rs. 200 on Zong SIM and then forget about recharging it… ; -) keep on Using Free GPRS until its available
Internet on mobile Phone Using Bluetooth
Ok I found this other guide which is more easy for newbies to follow. I ahvent checked it on my 6600. Will do the testing soon. Those of you on N-gage & 3650 please try too and post a new topic outside this FAQ section about how it is.
this will work on most s60 phone I guess! it has been tested on an NGAGE and on N3650!
step 1:
Creating an access point on your phone!
tools\settings\connection\access points\options\new access point>default settings...
these are the settings u need there..
Connection Name : Anything (sugestion ADLS or PCGPRS something u remember well cuz u'll need it later!)
Data Bearer: GPRS
Access Point Name: The name you gave to your bt connection when pairing up with the computer...
Username : None
Password : No
Authentication : Normal
Gateway IP Address : 0.0.0.0
and that's all on this on this part..
then go to:
tools/settings/connection, and select GPRS
set the GPRS connection to "when available", and the access point to "none".
The settings on your phone are done! now... the next step;
Create a serial port connection from your pc to your phone (You have done this before if u ever used Pc-suite from Nokia), this serial connection must be on every time you want to use your pc internet connection as a GPRS connection for your phone!!
Install the software u need to surf the web (opera, netfront, agile messenger for chat, etc...)
My advise to you is to use netfront, the options are pretty cool and it uses less memory meaning u can still run other program such as agile at the same time (it crashed my 3650 when I tried to do it with opera)..
Voil? ur ready to use ur phone to surf and chat for free!!
hope this helped you and that is simple and clear!! any question u know where to post, this will be updated if many doubts come up.
this will work on most s60 phone I guess! it has been tested on an NGAGE and on N3650!
step 1:
Creating an access point on your phone!
tools\settings\connection\access points\options\new access point>default settings...
these are the settings u need there..
Connection Name : Anything (sugestion ADLS or PCGPRS something u remember well cuz u'll need it later!)
Data Bearer: GPRS
Access Point Name: The name you gave to your bt connection when pairing up with the computer...
Username : None
Password : No
Authentication : Normal
Gateway IP Address : 0.0.0.0
and that's all on this on this part..
then go to:
tools/settings/connection, and select GPRS
set the GPRS connection to "when available", and the access point to "none".
The settings on your phone are done! now... the next step;
Create a serial port connection from your pc to your phone (You have done this before if u ever used Pc-suite from Nokia), this serial connection must be on every time you want to use your pc internet connection as a GPRS connection for your phone!!
Install the software u need to surf the web (opera, netfront, agile messenger for chat, etc...)
My advise to you is to use netfront, the options are pretty cool and it uses less memory meaning u can still run other program such as agile at the same time (it crashed my 3650 when I tried to do it with opera)..
Voil? ur ready to use ur phone to surf and chat for free!!
hope this helped you and that is simple and clear!! any question u know where to post, this will be updated if many doubts come up.
SunDirect FTA Channels at 93.5 E on Insat 4B
» Chirithirai, MTV (Sun Direct, 11030 V) on Insat 4B @ 93.5° East
» IBN 7, Info Channel (Sun Direct, 11030 V) left Insat 4B @ 93.5° East
» Hasya There, Vasanth TV (Sun Direct, 11530 V) on Insat 4B @ 93.5° East
» Colors, Navvula TherSun Directa, Aaj Tak (Sun Direct, 11610 V) on Insat 4B @ 93.5° East
» Angel TV (Sun Direct, 11610 V) left Insat 4B @ 93.5° East
» AXN, VH1 (Sun Direct, 11645 V) on Insat 4B @ 93.5° East
» SAB, Nickelodeon, Sony, Sony Pix, Discovery Channel, Animal Planet (Sun Direct, 11682 V) on Insat 4B @ 93.5° East
» Reality TV (Sun Direct, 11682 V) left Insat 4B @ 93.5° East
» IBN 7, Info Channel (Sun Direct, 11030 V) left Insat 4B @ 93.5° East
» Hasya There, Vasanth TV (Sun Direct, 11530 V) on Insat 4B @ 93.5° East
» Colors, Navvula TherSun Directa, Aaj Tak (Sun Direct, 11610 V) on Insat 4B @ 93.5° East
» Angel TV (Sun Direct, 11610 V) left Insat 4B @ 93.5° East
» AXN, VH1 (Sun Direct, 11645 V) on Insat 4B @ 93.5° East
» SAB, Nickelodeon, Sony, Sony Pix, Discovery Channel, Animal Planet (Sun Direct, 11682 V) on Insat 4B @ 93.5° East
» Reality TV (Sun Direct, 11682 V) left Insat 4B @ 93.5° East
(SATELLITES LIST) RECEIVABLE IN PAKISTAN with dish size
(1) Asia Sat 4 122 E 3760H27500 6-8
(2) Thaicom 1A 120 E 3725V3255 6-8
(3)TelKom 2 118 E 3833H6000 6-8
(4)Koreasat 3 116 E 11747 V 21300 8-10
(5)ChinaSat 6B 115E 3600 V 27500 4-6
(6)Palapa C2 113E 4080 H 28125 8-10
(7)Sinosat 1 110E 3720V 5700 6-8
(8)Nss 11 108 12531V26667 6-8
(9)AsiaSat 3 105E 2760H26000 4-6
(10)Express A2 103.0°E 3675 H 31106 6-8
(11) AsiaSat 2 at 100.5°E 4000H 28125 4-8
(12)ProStar 98E 3689 H 9000 8-10
(13Express AM33 at 96.5°E 3675 H33483 8-10
(14)NSS 6 at 95.0°E 11635H27500 8-10
(15) Insat 4B at 93.5°E 3725H27500 6-8
(16) Chinasat 9 at 92.2°E 11840V28800 6-8
(17)Meast 3 90E 3480V 28000 6-8
(18) Yamal 201 at 90.0°E 3645V28000 6-10
(19) ST 1 at 88.0°E 3550V30000 6-8
(20) Insat 3B at 83.0°E 4677 H 2000 6-8
(21) Express AM2 at 80.0°E 3675 V 33483 6-8
(22) Thaicom 5 at 78.5°E 3585V 26667 6-8
(23) Telstar 10 at 76.5°E 83760H28066 6-8
(24)IntelSat 10 68E 4064H19850 6-10
(25) Express AM 22 53° E 11044V40950 8-10
(26) Yamal 202 49° East 3776V65535 8-10
(27) Türksat 3A 42° East 10960H13000 8-10
(28) Express AM 1 40° East 3675V33484 8-10
(29) Paksat 1 at 38.0°E 3830 V 12000 6-8
(30) Arabsat 2B 30.5° East 3718V65535 8-10
(31) Badr 4 26° East 11919H27500 4-8
(32) Hot Bird 6 13° East 11566H27500 6-10
(33) Eutelsat W3A 7° East 10845V27500 6-10
122.2°E AsiaSat 4 ............................... 6,8 feet dish
105.5°E AsiaSat 3S.............................. 4,6 feet dish
103.0°E Express A2 ............................ 6,8 feet dish
103.0°E KazSat 1.................................. 6,8 feet dish
100.5°E AsiaSat 2 ............................... 6,8 feet dish
98.5°E ProtoStar 1.............................. 6,8 feet dish
96.5°E Express AM33......................... 6,8 feet dish
95.0°E NSS 6 .................................... 2,4 feet dish
93.5°E Insat 3A Insat 4........................ 4,6 feet dish
92.2°E Chinasat 9................................ 6,8 feet dish
91.5°E Measat 3 ................................ 6,8 feet dish
90.0°E Yamal 201................................ 4,6 feet dish
88.0°E ST 1......................................... 6,8 feet dish
87.5°E ChinaStar 1.............................. 6,8 feet dish
85.2°E Intelsat 709.............................. 6,8 feet dish
83.0°E Insat 2E Insat 3B Insat 4A....... 4,6 feet dish
80.0°E Express AM2......................... 6,8 feet dish
78.5°E Thaicom 2 Thaicom 5............ 6,8 feet dish
76.5°E Telstar 10 .............................. 6,8 feet dish
75.0°E ABS 1...... ............................. 4,6 feet dish
74.0°E Insat 3C Edusat Insat 4CR...... 4,6 feet dish
72.0°E Intelsat 4 ............................. 4,6 feet dish
70.5°E Eutelsat W5........................... 6,8 feet dish
68.5°E Intelsat 7 Intelsat 10............... 6,8 feet dish
64.2°E Intelsat 906........................... 6,8 feet dish
62.0°E Intelsat 902........................... 6,8 feet dish
60.0°E Intelsat 904........................... ....6,8 feet dish
57.0°E NSS 703 ............................ ....6,8 feet dish
55.0°E Insat 3E ................................ 6,8 feet dish
53.0°E Express AM22.......................... 6,8 feet dish
49.0°E Yamal 202................................ 6,8 feet dish
45.0°E Intelsat 12 ................................ 6,8 feet dish
42.0°E Türksat 2A Türksat 3A............4,6,8 feet dish
40.0°E Express AM1........................... 6,8 feet dish
39.0°E Hellas Sat 2.............................. 6,8 feet dish
38.0°E Paksat 1................................... 6,8 feet dish
30.5°E Arabsat 2B............................... 8,10 feet dish
26.0°E Arabsat. .................................. 8,10 feet dish
25.5°E Eurobird 2........................ ......4,6,8 feet dish
21.6°E Eutelsat W6............................. 6,8 feet dish
13.0°E Hot Bird 6 7 8...................... ....6,8 feet dish
09.0°E Eurobird 9............................... 6,8 feet dish
07.0°E Eutelsat W3A...................... .....6,8 feet dish
(2) Thaicom 1A 120 E 3725V3255 6-8
(3)TelKom 2 118 E 3833H6000 6-8
(4)Koreasat 3 116 E 11747 V 21300 8-10
(5)ChinaSat 6B 115E 3600 V 27500 4-6
(6)Palapa C2 113E 4080 H 28125 8-10
(7)Sinosat 1 110E 3720V 5700 6-8
(8)Nss 11 108 12531V26667 6-8
(9)AsiaSat 3 105E 2760H26000 4-6
(10)Express A2 103.0°E 3675 H 31106 6-8
(11) AsiaSat 2 at 100.5°E 4000H 28125 4-8
(12)ProStar 98E 3689 H 9000 8-10
(13Express AM33 at 96.5°E 3675 H33483 8-10
(14)NSS 6 at 95.0°E 11635H27500 8-10
(15) Insat 4B at 93.5°E 3725H27500 6-8
(16) Chinasat 9 at 92.2°E 11840V28800 6-8
(17)Meast 3 90E 3480V 28000 6-8
(18) Yamal 201 at 90.0°E 3645V28000 6-10
(19) ST 1 at 88.0°E 3550V30000 6-8
(20) Insat 3B at 83.0°E 4677 H 2000 6-8
(21) Express AM2 at 80.0°E 3675 V 33483 6-8
(22) Thaicom 5 at 78.5°E 3585V 26667 6-8
(23) Telstar 10 at 76.5°E 83760H28066 6-8
(24)IntelSat 10 68E 4064H19850 6-10
(25) Express AM 22 53° E 11044V40950 8-10
(26) Yamal 202 49° East 3776V65535 8-10
(27) Türksat 3A 42° East 10960H13000 8-10
(28) Express AM 1 40° East 3675V33484 8-10
(29) Paksat 1 at 38.0°E 3830 V 12000 6-8
(30) Arabsat 2B 30.5° East 3718V65535 8-10
(31) Badr 4 26° East 11919H27500 4-8
(32) Hot Bird 6 13° East 11566H27500 6-10
(33) Eutelsat W3A 7° East 10845V27500 6-10
122.2°E AsiaSat 4 ............................... 6,8 feet dish
105.5°E AsiaSat 3S.............................. 4,6 feet dish
103.0°E Express A2 ............................ 6,8 feet dish
103.0°E KazSat 1.................................. 6,8 feet dish
100.5°E AsiaSat 2 ............................... 6,8 feet dish
98.5°E ProtoStar 1.............................. 6,8 feet dish
96.5°E Express AM33......................... 6,8 feet dish
95.0°E NSS 6 .................................... 2,4 feet dish
93.5°E Insat 3A Insat 4........................ 4,6 feet dish
92.2°E Chinasat 9................................ 6,8 feet dish
91.5°E Measat 3 ................................ 6,8 feet dish
90.0°E Yamal 201................................ 4,6 feet dish
88.0°E ST 1......................................... 6,8 feet dish
87.5°E ChinaStar 1.............................. 6,8 feet dish
85.2°E Intelsat 709.............................. 6,8 feet dish
83.0°E Insat 2E Insat 3B Insat 4A....... 4,6 feet dish
80.0°E Express AM2......................... 6,8 feet dish
78.5°E Thaicom 2 Thaicom 5............ 6,8 feet dish
76.5°E Telstar 10 .............................. 6,8 feet dish
75.0°E ABS 1...... ............................. 4,6 feet dish
74.0°E Insat 3C Edusat Insat 4CR...... 4,6 feet dish
72.0°E Intelsat 4 ............................. 4,6 feet dish
70.5°E Eutelsat W5........................... 6,8 feet dish
68.5°E Intelsat 7 Intelsat 10............... 6,8 feet dish
64.2°E Intelsat 906........................... 6,8 feet dish
62.0°E Intelsat 902........................... 6,8 feet dish
60.0°E Intelsat 904........................... ....6,8 feet dish
57.0°E NSS 703 ............................ ....6,8 feet dish
55.0°E Insat 3E ................................ 6,8 feet dish
53.0°E Express AM22.......................... 6,8 feet dish
49.0°E Yamal 202................................ 6,8 feet dish
45.0°E Intelsat 12 ................................ 6,8 feet dish
42.0°E Türksat 2A Türksat 3A............4,6,8 feet dish
40.0°E Express AM1........................... 6,8 feet dish
39.0°E Hellas Sat 2.............................. 6,8 feet dish
38.0°E Paksat 1................................... 6,8 feet dish
30.5°E Arabsat 2B............................... 8,10 feet dish
26.0°E Arabsat. .................................. 8,10 feet dish
25.5°E Eurobird 2........................ ......4,6,8 feet dish
21.6°E Eutelsat W6............................. 6,8 feet dish
13.0°E Hot Bird 6 7 8...................... ....6,8 feet dish
09.0°E Eurobird 9............................... 6,8 feet dish
07.0°E Eutelsat W3A...................... .....6,8 feet dish
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