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Número de pieza	TA0030
Descripción	TRANSMIT AND RECEIVE AGC AMPLIFIERS FOR CDMA CELLULAR /PCS PHONES
Fabricantes	RF
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No Preview Available ! TA0030 TA0030 RF2607, RF2609: Transmit and Receive AGC Amplifiers for CDMA Cellu- lar/PCS Phones Cellular and Personal Communication Services (PCS) phones that are based on Code Division Multiple Access (CDMA) need careful regulation of signal levels on both the forward and reverse channels. In the reverse channel (mobile phone to base station) a transmit automatic gain control (AGC) amplifier must carefully adjust the output power of the mobile so that it does not dominate the input spectrum at the base sta- tion. Each mobile's signal should arrive at the base station at the same power level; this helps ensure that capac- ity is maximized. In the forward channel (base station to mobile) a receive AGC amplifier adjusts to accom- modate widely varying signal levels coming in from the base station. At a CDMA mobile phone antenna numerous signals sent from the cell base station are layered on a single frequency band and within this group of signals lays the desired data. All of these signals (desired and undesired) pass through a low noise amplifier front end and then through a downconverting mixer. Immediately following the mixer the waveforms pass through a CDMA inter- mediate frequency (IF) bandpass filter. All of the afore- mentioned signals are in-band and are not filtered. Because of this condition the receive AGC amplifier cannot simply limit. The strongest signal would be lim- ited and compress all other signals that were received, so if the desired data was not the strongest, it would be lost. It becomes clear that the receive AGC amplifier must provide linear amplification and attenuation to prevent limiting of undesired signals. RF Micro Devices has developed two integrated circuits (ICs) that per- form both of these important functions. The RF2607 CDMA/FM Receive AGC Amplifier and the RF2609 CDMA/FM Transmit AGC Amplifier are both monolithic ICs that are fabricated in an advanced bipolar Silicon process. Both of these low cost, high performance ICs pack variable gain differential amplifier stages, gain control operational amplifiers, and temperature com- pensation circuitry within small QSOP16 plastic pack- ages. The RF2609 features a 90dB gain range from -48dB power gain to +42dB power gain and is powered from a single 3.6V supply. In a cellular system, the cellular base station sends control signals to the mobile phone directing the RF2609 to increment or decrement its gain in 1dB steps. As the mobile strays further from the base station, the RF2609 is directed to increase its gain and hence, its output power, while the reverse occurs as the mobile approaches the base station. The gain of the IC is controlled by a single DC voltage externally supplied by a digital-to-analog (D/A) con- verter which is swept from 0VDC to 3VDC. Figure 1 illustrates the gain response of the RF2609 as the gain control voltage is swept. 60 50 40 30 20 10 0 -10 -20 -30 -40 -50 -60 0.0 RF2609 Gain vs. Gain Control Voltage (Vcc=3.6 V, 130 MHz) +25°C -30°C +80°C 0.5 1.0 1.5 2.0 2.5 GC (volts) 3.0 Figure 1. Gain response of the RF2609 as the gain control voltage is swept CDMA system specifications dictate that as the gain is swept over its entire range, the transmit AGC amplifier must maintain a minimum input third order intercept point (IIP3). Another way to state this requirement is that the adjacent channel power rejection of the ampli- fier must remain constant regardless of the output level. This specification ensures that IS-95 transmitted spectrum requirements are met under the entire gain range of the AGC amplifier. To clarify how this affects the design, in a CDMA phone the input signal provided to the RF2609 will remain constant even while the gain is increased or decreased. Thus, the output signal will vary proportionally with the gain of the IC. Under these conditions, the third order (IM3) products must remain constant and not rise as the gain moves upward. The RF2609 uses a proprietary variable gain amplifier scheme that achieves excellent IM3 performance (see 13 Copyright 1997-2000 RF Micro Devices, Inc. 13-151 1 page TA0030 Measurement Reference Plane ZS=500 Ω Z S, EFF=333 Ω CDMA+ CDMA- FM IN CDMA IF Filter FM IF Filter R1: 1 kΩ Z IN, EFF=500 Ω Z IN=1 kΩ Z IN=850 Ω 1 2 3 4 IN SEL. ZS=850 Ω 10 nF 5 IF IN SELECT 6 7 NC 8 GAIN CONTROL 1 6 15 14 13 12 11 10 9 ZLOAD,EFF=250 Ω R1 sets the CDMA balanced input impedance. The effective input impedance is then 500 Ω. R2 sets the balanced output impedance to 500 Ω. L1 and C2 serve dual purposes. L1 serves as an output bias choke, and C2 serves as a series DC block. In addition, the values of L1 and C2 may be chosen to form an impedance matching network of the load impedance is not 500 Ω. Otherwise, the values of L1 and C1 are chosen to form a parallel-resonant tank circuit at the IF when the load impedance is 500 Ω. Figure 8. RF2607 Application Circuit system designer only wishes to use the modulator/ AGC section. In the receive chain, a demodulator is added to the receive AGC amplifier. In this case, the output of the part is I/Q data at baseband frequencies. 4.7 kΩ GC 10 nF 10 nF VCC C1 L1 C2 R2: 500Ω C2 ZLOAD=500Ω OUT+ OUT- C1 L1 VCC Measurement Reference Plane 10 nF ZOUT=500 Ω The RF9957 CDMA Receive IC includes both of these functions. Both the RF9957 and RF9958 operate from a single 3V power supply. The RF2607 and the RF2609 are two critical compo nents of the RF section of a CDMA phone (see Figure 9). Both of these IC's were designed to meet all of IS- 95's worst-case requirements and are available in high volume at low cost. Please call RF Micro Devices' Mar- keting Department for additional information and details on these two products, or any others, at 910- 664-1233. Also, please check our web page at www.rfmd.com. 13 Copyright 1997-2000 RF Micro Devices, Inc. 13-155 5 Page

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