User's Manual
Table Of Contents
- Contents
- Table Index
- Figure Index
- 0. Revision history
- 1. Introduction
- 2. Product concept
- 3. Application interface
- 3.1. Pin
- 3.2. Operating modes
- 3.3. Power supply
- 3.4. Power on and down scenarios
- 3.5. Charging interface
- 3.6. Power saving
- 3.7. Summary of state transitions
- 3.8. RTC backup
- 3.9. Serial interfaces
- 3.10. Audio interfaces
- 3.11. SIM card interface
- 3.12. SD card interface
- 3.13. PCM interface
- 3.14. ADC
- 3.15. Behaviors of the RI
- 3.16. Network status indication
- 3.17. Operating status indication
- 4. Antenna interface
- 5. Electrical, reliability and radio characteristics
- 6. Mechanical dimensions
- 7. Storage and manufacturing
- Appendix A: GPRS coding schemes
- Appendix B: GPRS multi-slot classes
M80 Hardware Design
M80_HD_V1.2 - 73 -
DCS1800/PCS1900 is <1.5dB.
4.2. RF output power
Table 30: The module conducted RF output power
Frequency
Max
Min
GSM850
33dBm ±2dB
5dBm±5dB
EGSM900
33dBm ±2dB
5dBm±5dB
DCS1800
30dBm ±2dB
0dBm±5dB
PCS1900
30dBm ±2dB
0dBm±5dB
Note: In GPRS 4 slots TX mode, the max output power is reduced by 2.5dB. This design
conforms to the GSM specification as described in section 13.16 of 3GPP TS 51.010-1.
4.3. RF receiving sensitivity
Table 31: The module conducted RF receiving sensitivity
Frequency
Receive sensitivity
GSM850
< -108.5dBm
EGSM900
< -108.5dBm
DCS1800
< -108.5dBm
PCS1900
< -108.5dBm
4.4. Operating frequencies
Table 32: The module operating frequencies
Frequency
Receive
Transmit
ARFCH
GSM850
869~894MHz
824~849MHz
128~251
EGSM900
925~960MHz
880~915MHz
0~124, 975~1023
DCS1800
1805~1880MHz
1710~1785MHz
512~885
PCS1900
1930~1990MHz
1850~1910MHz
512~810
4.5. RF cable soldering
Soldering the RF cable to RF pad of module correctly will reduce the loss on the path of RF,
please refer to the following example of RF soldering.