Mobile Phone System
Content
Mobile Phone System AMPS
Generation Channel Spacing
Access Method FDMA
Comments Advanced Mobile Phone System, this analogue system was first developed and used in the USA. Narrow band version of AMPS chiefly used in the USA and Israel based on a 10 kHz channel spacing. The aim was to conserve spectrum and thereby allow a larger number of users. Analogue system developed by Motorola was originally used in the UK. Based around 900 MHz, this system spread world wide. After the system was first introduced, further channels were allocated to reduce congestion, in a standard known as Extended TACS or ETACS Nordic Mobile Telephone. This analogue system was the first cellular technology to be widely used commercially being launched in 1979. It was used initially on 450 MHz and later at 900 MHz. It was used chiefly in Scandinavia but it was adopted by up to 30 other countries including Oman. Nippon Telegraph and Telephone. This cellular technology was used in Japan in the 900 MHz frequency band with a 55 MHz transmit receive spacing. (A high capacity version known as HICAP was also developed). The system adopted in West Germany (East Germany was separate at this time). It used a band in the region of 450 MHz along with a 10 MHz receive / transmit spacing. Originally called Groupe Speciale Mobile, the initials later stood for Global System for Mobile communications. It was developed in Europe and first introduced in 1991. This cellular technology was originally used on frequencies around 900 MHz,
1G
30 kHz
NAMPS
1G
10 kHz
FDMA
TACS
1G
25 kHz
FDMA
NMT
1G
12.5 kHz
FDMA
NTT
1G
25 kHz
FDMA
C450
1G
20 kHz
FDMA
GSM
2G
200 kHz
TDMA
DCS 1800 PCS 1900
2G 2G
200 kHz 200 kHz
TDMA TDMA
TDMA
2G
30 kHz
TDMA
PDC
2G
25 kHz
TDMA
GPRS
2.5G
200 kHz
TDMA
EDGE
2.5 / 3G
200 kHz
TDMA
cdmaOne
2G
1.25 MHz
CDMA
but its use has been expanded to other bands including those around 1800 MHz, 1900 MHz and 850 MHz (the latter two are mainly used in North America). GSM is the most widely used cellular technology with over 2 billion subscriptions currently active. The original name for GSM used at 1800 MHz. The original name for GSM used at 1900 MHz. Although it was originally known as US Digital Cellular (USDC) and was introduced in 1991. It is sometimes called North America Digital Cellular and also known by its standard number IS-54 that was later updated to standard IS136. It is a 2G digital system that was designed to operate alongside the AMPS system. Pacific or Personal Digital Cellular. The system found only in Japan where it has gained very widespread use. It has many similarities with IS-54 although it uses a different speech coder and a 25 kHz bandwidth. General Packet Radio Service. A data service that can be layered onto GSM. It uses packet switching instead of circuit switching to provide the required performance. Data rates of up to 115 kbps attainable. Enhanced Data rates for GSM Evolution. This cellular technology uses a different form of modulation (8PSK) and packet switching which is overlaid on top of GSM to provide the enhanced performance. Systems using the EDGE system may also be known as EGPRS systems. This is the brand name for the cellular technology with the standard reference IS95. It was the first CDMA system to gain widespread use. The initial specification for the system was IS95A,
CDMA2000 2.5G 1X
1.25 MHz
CDMA2000 3G 1xEV-DO
1.25 MHz
CDMA2000 3G 1xEV-DV
1.25 MHz
UMTS 3G (W-CDMA)
5 MHz
but its performance was later upgraded under IS95B which the cdmaOne specification actually uses. Apart from voice it also carries data at rates up to 14.4 kbps for IS95A and under IS95B data rates of up to 115 kbps are supported. This cellular technology supports both voice and data capabilities within a standard 1.25 MHz CDMA channel. CDMA2000 builds on cdmaOne to provide an evolution path to 3G. The system doubles the voice capacity of CDMA cdmaOne systems and also supports high-speed data services. Peak data rates of 153 kbps are currently achievable with figures of 307 kbps quoted for the future, and 614 kbps when two channels are used. The EV-DO stands for Evolution Data Only. This is an evolution of CDMA 2000 that is designed for data only use and its specification is IS 856. It provides peak data rate capability of over 2.45 Mbps on the forward or CDMA downlink , i.e. from the base station to the user. The aim of the system is to deliver a low cost per megabyte capability along with an always on connection costed on the data downloaded rather than connection time. This stands for Evolution Data and Voice. It is an evolution of CDMA2000 that can simultaneously transmit voice and data. The peak data rate is 3.1 Mbps on the forward link. The reverse link is CDMA very similar to CDMA2000 and is limited to 384 kbps. In view of the success of CDMA2000 1xEV-DO, it has never been deployed, although it reached an advanced stage of development. CDMA / Universal Mobile Telecommunications TDMA System. Uses Wideband CDMA (W-
HSPA (HSDPA and HSUPA)
3.5G
5 MHz
TD-SCDMA 3G
1.6 MHz
LTE
3.99 / 4G
UMB
3.99G / 4G
CDMA) with one 5 MHz wide channel for both voice and data, providing data speeds up to 2 Mbps. High Speed Packet Access using High Speed Downlink Packet Access and High Speed Uplink Packet Access. HSPA provides for high speed packet CDMA / data at speeds up to 14.4 Mbps in the TDMA downlink using packet data. The specifications were progressively released under Rel 4 to Rel 6 of the 3GPP specifications. Time Division Synchronous CDMA. A cellular technology developed in China to establish their position on the cellular telecommunications arena. It uses the CDMA same bands for transmit and receive, allowing different time slots for base stations and mobiles to communicate. Unlike other 3G systems it uses only a time division duplex (TDD) system. The Long Term Evolution path for the UMTS / W-CDMA cellular technology. It provides broadband data throughputs and uses orthogonal frequency division OFDMA multiplex (OFDM) as the modulation technique and Orthogonal Frequency Division Multiple Access as the access technique. Ultra-Mobile Broadband. This is the OFDMA 3.99 / 4G evolution cellular technology for CDMA2000.
Generation Channel Spacing
Access Method FDMA
Comments Advanced Mobile Phone System, this analogue system was first developed and used in the USA. Narrow band version of AMPS chiefly used in the USA and Israel based on a 10 kHz channel spacing. The aim was to conserve spectrum and thereby allow a larger number of users. Analogue system developed by Motorola was originally used in the UK. Based around 900 MHz, this system spread world wide. After the system was first introduced, further channels were allocated to reduce congestion, in a standard known as Extended TACS or ETACS Nordic Mobile Telephone. This analogue system was the first cellular technology to be widely used commercially being launched in 1979. It was used initially on 450 MHz and later at 900 MHz. It was used chiefly in Scandinavia but it was adopted by up to 30 other countries including Oman. Nippon Telegraph and Telephone. This cellular technology was used in Japan in the 900 MHz frequency band with a 55 MHz transmit receive spacing. (A high capacity version known as HICAP was also developed). The system adopted in West Germany (East Germany was separate at this time). It used a band in the region of 450 MHz along with a 10 MHz receive / transmit spacing. Originally called Groupe Speciale Mobile, the initials later stood for Global System for Mobile communications. It was developed in Europe and first introduced in 1991. This cellular technology was originally used on frequencies around 900 MHz,
1G
30 kHz
NAMPS
1G
10 kHz
FDMA
TACS
1G
25 kHz
FDMA
NMT
1G
12.5 kHz
FDMA
NTT
1G
25 kHz
FDMA
C450
1G
20 kHz
FDMA
GSM
2G
200 kHz
TDMA
DCS 1800 PCS 1900
2G 2G
200 kHz 200 kHz
TDMA TDMA
TDMA
2G
30 kHz
TDMA
PDC
2G
25 kHz
TDMA
GPRS
2.5G
200 kHz
TDMA
EDGE
2.5 / 3G
200 kHz
TDMA
cdmaOne
2G
1.25 MHz
CDMA
but its use has been expanded to other bands including those around 1800 MHz, 1900 MHz and 850 MHz (the latter two are mainly used in North America). GSM is the most widely used cellular technology with over 2 billion subscriptions currently active. The original name for GSM used at 1800 MHz. The original name for GSM used at 1900 MHz. Although it was originally known as US Digital Cellular (USDC) and was introduced in 1991. It is sometimes called North America Digital Cellular and also known by its standard number IS-54 that was later updated to standard IS136. It is a 2G digital system that was designed to operate alongside the AMPS system. Pacific or Personal Digital Cellular. The system found only in Japan where it has gained very widespread use. It has many similarities with IS-54 although it uses a different speech coder and a 25 kHz bandwidth. General Packet Radio Service. A data service that can be layered onto GSM. It uses packet switching instead of circuit switching to provide the required performance. Data rates of up to 115 kbps attainable. Enhanced Data rates for GSM Evolution. This cellular technology uses a different form of modulation (8PSK) and packet switching which is overlaid on top of GSM to provide the enhanced performance. Systems using the EDGE system may also be known as EGPRS systems. This is the brand name for the cellular technology with the standard reference IS95. It was the first CDMA system to gain widespread use. The initial specification for the system was IS95A,
CDMA2000 2.5G 1X
1.25 MHz
CDMA2000 3G 1xEV-DO
1.25 MHz
CDMA2000 3G 1xEV-DV
1.25 MHz
UMTS 3G (W-CDMA)
5 MHz
but its performance was later upgraded under IS95B which the cdmaOne specification actually uses. Apart from voice it also carries data at rates up to 14.4 kbps for IS95A and under IS95B data rates of up to 115 kbps are supported. This cellular technology supports both voice and data capabilities within a standard 1.25 MHz CDMA channel. CDMA2000 builds on cdmaOne to provide an evolution path to 3G. The system doubles the voice capacity of CDMA cdmaOne systems and also supports high-speed data services. Peak data rates of 153 kbps are currently achievable with figures of 307 kbps quoted for the future, and 614 kbps when two channels are used. The EV-DO stands for Evolution Data Only. This is an evolution of CDMA 2000 that is designed for data only use and its specification is IS 856. It provides peak data rate capability of over 2.45 Mbps on the forward or CDMA downlink , i.e. from the base station to the user. The aim of the system is to deliver a low cost per megabyte capability along with an always on connection costed on the data downloaded rather than connection time. This stands for Evolution Data and Voice. It is an evolution of CDMA2000 that can simultaneously transmit voice and data. The peak data rate is 3.1 Mbps on the forward link. The reverse link is CDMA very similar to CDMA2000 and is limited to 384 kbps. In view of the success of CDMA2000 1xEV-DO, it has never been deployed, although it reached an advanced stage of development. CDMA / Universal Mobile Telecommunications TDMA System. Uses Wideband CDMA (W-
HSPA (HSDPA and HSUPA)
3.5G
5 MHz
TD-SCDMA 3G
1.6 MHz
LTE
3.99 / 4G
UMB
3.99G / 4G
CDMA) with one 5 MHz wide channel for both voice and data, providing data speeds up to 2 Mbps. High Speed Packet Access using High Speed Downlink Packet Access and High Speed Uplink Packet Access. HSPA provides for high speed packet CDMA / data at speeds up to 14.4 Mbps in the TDMA downlink using packet data. The specifications were progressively released under Rel 4 to Rel 6 of the 3GPP specifications. Time Division Synchronous CDMA. A cellular technology developed in China to establish their position on the cellular telecommunications arena. It uses the CDMA same bands for transmit and receive, allowing different time slots for base stations and mobiles to communicate. Unlike other 3G systems it uses only a time division duplex (TDD) system. The Long Term Evolution path for the UMTS / W-CDMA cellular technology. It provides broadband data throughputs and uses orthogonal frequency division OFDMA multiplex (OFDM) as the modulation technique and Orthogonal Frequency Division Multiple Access as the access technique. Ultra-Mobile Broadband. This is the OFDMA 3.99 / 4G evolution cellular technology for CDMA2000.
