31.5.02 06-S46 Body.fm i 37 Eagle Am Engl, A31008-H4500-A1-4-7619

Getting Started

11

 

Remove battery cover

• Unlock battery cover and remove .

Insert SIM card

Your service provider has supplied you with a SIM card for your phone. The SIM card is required for the phone to operate in TDMA or GSM, and it contains important data for your GSM subscription.

If you have received your phone’s SIM card in credit card size, snap the smaller piece out and remove any rough edges.

• Slide out the red SIM holder and turn it in the direction indicated by the arrow .

Insert SIM card in the holder .

 

Make sure the angled corner is in

 

the correct position and the

 

contacts are facing upward.

Turn holder until the SIM card and

 

contacts face the phone .

Slide the SIM holder back into the

 

phone until it clicks into place .

Security/PIN

The SIM card can be protected against misuse with a 4 - 8 digit PIN (personal identification number). Depending on the type of SIM card, the PIN may be changed or the protection may be activated or deactivated (p. 77).

Type of SIM card

Only 3-Volt SIM cards may be used. Older SIM cards (5-Volt technology) are not supported. Please contact your service provider if you have an older card.

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Siemens TDMA 800, GSM 900, GSM 1900, TDMA 1900 manual Remove battery cover, Insert SIM card, Security/PIN, Type of SIM card

GSM 900, GSM 1900, TDMA 1900, TDMA 800 specifications

Siemens is a renowned telecommunications equipment manufacturer known for its innovative solutions in mobile communication. Among its notable contributions are the TDMA 800, TDMA 1900, GSM 900, and GSM 1900 systems. These technologies have played a significant role in shaping mobile telephony, particularly during the late 20th century.

TDMA, or Time Division Multiple Access, is a digital transmission protocol that allows multiple users to share the same frequency channel by dividing the signal into time slots. The Siemens TDMA 800 operates in the 800 MHz frequency band, which is ideal for regional mobile communication. Its main features include improved call quality, greater capacity, and effective handover capabilities. This system was particularly popular in the United States, where it formed the backbone of early digital cellular networks.

On the other hand, the TDMA 1900 operates in the 1900 MHz band, catering to urban areas with higher population densities. This system further enhances voice clarity and offers faster data transmission speeds. Its key characteristics include support for features such as call waiting, caller ID, and enhanced voice privacy, making it suitable for modern telecommunication needs.

GSM, or Global System for Mobile Communications, is another critical technology developed by Siemens. The GSM 900 operates at 900 MHz and is one of the most widely adopted mobile standards globally. Its contributions to the communication landscape include superior frequency reuse, allowing for a greater number of simultaneous calls. The GSM 900 also supports various services beyond voice calls, including SMS (Short Message Service) and basic data transmission.

Meanwhile, GSM 1900, which functions in the 1900 MHz frequency band, is predominantly used in North America. This technology shares many features with GSM 900, but it accommodates a larger number of channels per frequency unit due to its higher frequency. The GSM 1900 system has been critical in facilitating the growth of mobile data services, providing a solid foundation for the evolution of mobile internet access.

Overall, Siemens' TDMA and GSM technologies have significantly influenced the development of mobile telecommunications. With features focused on capacity, flexibility, and quality, these systems established the groundwork for the advanced mobile networks we rely on today. Their legacy continues to be seen in the current generation of wireless technologies, highlighting the importance of innovation in the telecommunications industry.