Technical Manual

Page 8 of 13

weaken distortion generated by inferior processes. When the received

signal is lower than -85dBm, LNA processes the high gain control, at

the same time, QSC6085 controls LNA current offset and gain

compensation of QSC chip. LNA outputs to RX SAW filter and restrains

the 40dB transmitted signal and out-of-band signal. The bandwidth of

the filter is 25MHz, and the frequency range is 881.5+/-12.5MHz, then

output to QSC6085. QSC6085 supports zero intermediate frequency

technology, which can converse the frequency down to base band

signal directly, and then generates two analog signals ( I and Q) to enter

QSC6085 chip for advanced demodulation.

4.1.2 RF circuit of GSM

4.1.2.1

Main

functions

circuit:

The baseband modulate the uplink baseband GSM signal, and then

transmit it on 885MHz--915MHz carrier by the antenna; Demodulate the

received wireless signal transmitted by the base station on 925MHz-

925MHz carriers by the receiving circuit and get the forward

channel GSM signal; at the same time, provide the steady en-control

13MHz frequency source.

4.1.2.2 Structure of RF circuit:

We can divide it to 4 units according to the functions: Antenna unit,

frequency synthesized unit, receiving unit, transmitting unit.

4.1.2.2.1 Antenna unit

Composed by antenna groupware, antenna switch and diplexer. This

antenna groupware is the transceiver of the wireless signal that is

composed by inside antenna, and could fetch up the disadvantages

such as the low efficiency and the poor radiance direction by the high

performance match. This phone has the antenna switch and diplexer.

The antenna switch is used as the auto-test mechanical switch, which is

located at the RF channel and parallel connected to the antenna. When

producing and testing, it is connected to the test cable. Diplexer is used

to isolate the received and transmitted signals, which can reduce the

interference.

4.1.2.2.2 Frequency-synthesized unit