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| RF2617 10 Typical Applications * 3V CDMA/FM Cellular Systems * Supports Dual-Mode AMPS/CDMA * Supports Dual-Mode TACS/CDMA * General Purpose Linear IF Amplifier * Commercial and Consumer Systems * Portable Battery Powered Equipment 3V CDMA/FM RECEIVE AGC AMPLIFIER Product Description The RF2617 is a complete AGC amplifier designed for the receive section of 3V dual-mode CDMA/FM cellular applications. It is designed to amplify IF signals while providing more than 90dB of gain control range. Noise Figure, IP3, and other specifications are designed to be compatible with the IS-95 Interim Standard for CDMA cellular communications. This circuit is designed as part of the RFMD CDMA Chip Set, consisting of a Transmit IF AGC Amp, a Transmit Upconverter, a Receive LNA/Mixer, and this Receive IF AGC Amp. The IC is manufactured on an advanced high frequency Silicon Bipolar process, and is packaged in a standard miniature 16-lead plastic SSOP package. 0.157 0.150 0.012 0.008 0.196 0.189 0.025 0.0688 0.0532 -A0.0098 0.0040 0.2440 0.2284 8 MAX 0MIN 0.050 0.016 0.0098 0.0075 NOTES: 1. Shaded lead is Pin 1. 2. All dimensions are excluding mold flash. 3. Lead coplanarity - 0.005 with respect to datum "A". Optimum Technology Matching(R) Applied Si Bi-CMOS SiGe HBT Si CMOS * Supports Dual Mode Operation CDMA+ 1 CDMA- 2 GND 3 FM+ 4 FM- 5 GND 6 IN SELECT 7 NC 8 IN SEL. GAIN CONTROL 16 GC 15 VCC 14 VCC 13 VCC 12 GND 11 GND 10 OUT+ 9 OUT- * -48dB to +48dB Gain Control Range * Single 3V Power Supply * Digitally Selectable Inputs * -2dBm Input IP3 * 12MHz to 285MHz Operation Ordering Information RF2617 RF2617 PCBA 3V CDMA/FM Receive AGC Amplifier Fully Assembled Evaluation Board Functional Block Diagram RF Micro Devices, Inc. 7625 Thorndike Road Greensboro, NC 27409, USA Tel (336) 664 1233 Fax (336) 664 0454 http://www.rfmd.com Rev B4 010717 10-17 IF AMPLIERS uSi BJT Package Style: SSOP-16 10 GaAs HBT GaAs MESFET Features RF2617 Absolute Maximum Ratings Parameter Supply Voltage Control Voltage Input RF Power Operating Ambient Temperature Storage Temperature Value -0.5 to +7.0 -0.5 to +5.0 +10 -40 to +85 -40 to +150 Unit VDC VDC dBm C C Caution! ESD sensitive device. RF Micro Devices believes the furnished information is correct and accurate at the time of this printing. However, RF Micro Devices reserves the right to make changes to its products without notice. RF Micro Devices does not assume responsibility for the use of the described product(s). Parameter Specification Min. Typ. Max. Unit Condition T=25C, 85MHz, VCC =3.0V, ZS =500 , ZL =500, 500 External CDMA Input Terminating Resistor, 500 External Output Terminating Resistor (Effective ZS =333, Effective ZL =250) (See application schematic). Overall Frequency Range CDMA Maximum Gain CDMA Minimum Gain FM Maximum Gain FM Minimum Gain Gain Slope Gain Control Voltage Range Gain Control Input Impedance Noise Figure Input IP3 +45 +45 10 IF AMPLIERS Stability (Max VSWR) -44 -4 10:1 12 to 285 +48 -48 +49 -48 57 0 to 3 30 5 -40 -2 -45 -45 8 MHz dB dB dB dB dB/V VDC k dB dBm dBm VGC =2.4V VGC =0.3V VGC =2.4V VGC =0.3V Measured in 0.5V increments Source impedance of 4.7k At maximum gain and 85MHz At +40dB gain, referenced to 500 At minimum gain, referenced to 500 Spurious<-70dBm CDMA, differential FM, single-ended IF Input Input Impedance Input Impedance CDMA to FM Isolation 1 850 30 2.7 to 3.3 13 14 k dB V mA mA Power Supply Voltage Current Consumption Current Consumption 15 16 Minimum gain, VCC =3.0V Maximum gain, VCC =3.0V 10-18 Rev B4 010717 RF2617 Pin 1 Function CDMA+ Description CDMA balanced input pin. This pin is internally DC-biased and should be DC-blocked if connected to a device with a DC level other than VCC present. A DC to connection to VCC is acceptable. For single-ended input operation, one pin is used as an input and the other CDMA input is AC-coupled to ground. The balanced input impedance is 1k, while the single-ended input impedance is 500. Same as pin 2, except complementary input. Ground connection. For best performance, keep traces physically short and connect immediately to ground plane. FM balanced input pin. This pin is internally DC-biased and should be DC-blocked if connected to a device with DC present. For single-ended input operation, one pin is used as an input and the other FM input is AC-coupled to ground. The balanced input impedance is 1.7k, while the single-ended input impedance is 850. Interface Schematic BIAS 700 CDMA+ 700 CDMA- 2 3 4 CDMAGND FM+ See pin 1. BIAS 650 FM+ 650 FM- 5 6 7 FMGND IN SELECT Same as pin 4, except complementary input. Same as pin 3. Selects which IF input (CDMA or FM) is used. This is a digitally controlled input. A logic "high" selects the CDMA input amplifier. A logic "low" selects the FM input amplifier. The threshold voltage is approximately 1.3V. No connection pin. This pin is internally biased and should not be connected to any external circuitry, including ground or VCC. See pin 4. 20 k IN SELECT 8 9 NC OUT- 10 11 12 13 OUT+ GND GND VCC Same as pin 3. Same as pin 3. Supply Voltage pin. External bypassing is required. The trace length between the pin and the bypass capacitors should be minimized. The ground side of the bypass capacitors should connect immediately to ground plane. Same as pin 13. Same as pin 13. Analog gain adjustment for all amplifiers. Valid control ranges are from 0V to 3.0V. Maximum gain is selected with 3.0V. Minimum gain is selected with 0V. These voltages are only valid for a 4.7k DC source impedance. VCC 14 15 16 VCC VCC GC 12.7 k 23.5 k 15 k Rev B4 010717 10-19 IF AMPLIERS Balanced output pin. This is an open-collector output, designed to operate into a 250 balanced load. The load sets the operating impedOUT+ ance, but an external choke or matching inductor to VCC must also be supplied in order to correctly bias this output. This bias inductor is typically incorporated in the matching network between the output and next stage. Because this pin is biased to VCC, a DC-blocking capacitor must be used if the next stage's input has a DC path to ground. Same as pin 9, except complementary output. See pin 9. OUT- 10 RF2617 Application Schematic Measurement Reference Plane ZS=500 CDMA IF Filter CDMA+ CDMAZ IN, EFF=500 FM IF Filter FM IN Z S, EFF=333 1 2 Z IN=1 k 3 4 10 nF IN SEL. GAIN CONTROL 4.7 k 16 15 10 nF 14 10 nF 13 12 11 10 9 ZLOAD,EFF=250 C1 L1 VCC ZLOAD=500 OUT+ R2 500 C2 C2 OUTC1 L1 VCC Measurement Reference Plane GC R1 1 k Z IN=850 ZS=850 5 6 C2 IF IN SELECT 7 NC 8 R1 sets the CDMA balanced input impedance. The effective input impedance is then 500 . R2 sets the balanced output impedance to 500 . 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 . 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 . 10 nF ZOUT=500 10 IF AMPLIERS 10-20 Rev B4 010717 RF2617 Evaluation Board Schematic (Download Bill of Materials from www.rfmd.com.) L2 390 nH J1 CDMA 50 strip T1 C3 15 pF C4 15 pF 50 strip L1 390 nH C1 10 nF C2 10 nF R1 1 k 1 2 GAIN CONTROL 16 15 IN SEL. 14 13 12 11 10 9 C12 15 pF T2 R2 500 L4 390 nH C9 10 nF C11 15 pF L5 390 nH P1-3 C10 10 nF C13 10 nF C14 10 nF P1-3 R3 4.7 k P1-1 J2 FM C6 10 pF L3 330 nH C5 10 nF 3 4 5 C7 10 nF 6 7 C8 10 nF 8 50 strip P2-1 J3 OUT P1 P1-1 1 2 P1-3 3 GC GND VCC NC P2-1 P2 1 2 3 SELECT GND 2617400- 10 IF AMPLIERS Rev B4 010717 10-21 RF2617 Evaluation Board Layout 10 IF AMPLIERS 10-22 Rev B4 010717 RF2617 Gain versus Gain Control Voltage 60.0 50.0 40.0 30.0 20.0 Gain versus Gain Control Voltage 60.0 50.0 40.0 30.0 20.0 (VCC=2.7 V, 85 MHz) (VCC=3.0 V, 85 MHz) Gain (dB) 0.0 -10.0 -20.0 -30.0 -40.0 -50.0 -60.0 0.0 0.5 1.0 1.5 2.0 2.5 -30 C +25 C +80 C Gain (dB) 10.0 10.0 0.0 -10.0 -20.0 -30.0 -40.0 -50.0 -60.0 0.0 0.5 1.0 1.5 2.0 2.5 -30 C +25 C +80 C GC (V) GC (V) Gain versus Gain Control Voltage 60.0 50.0 40.0 30.0 20.0 0.0 Input IP3 versus Gain 10.0 (VCC=3.3 V, 85 MHz) (VCC=2.7 V, 85 MHz) -30 C +25 C +80 C -10.0 Gain (dB) 10.0 0.0 -10.0 -20.0 IIP3 (dBm) -20.0 -30.0 10 IF AMPLIERS -40.0 -30.0 -40.0 -50.0 -60.0 0.0 0.5 1.0 1.5 2.0 2.5 -30 C +25 C +80 C -60.0 -60.0 -40.0 -20.0 0.0 20.0 40.0 60.0 -50.0 GC (V) Gain (dBm) Input IP3 versus Gain 10.0 Input IP3 versus Gain 10.0 -30 C +25 C (VCC=3.0 V, 85 MHz) (VCC=3.3 V, 85 MHz) -30 C +25 C 0.0 +80 C 0.0 +80 C -10.0 -10.0 IIP3 (dBm) -20.0 IIP3 (dBm) -40.0 -20.0 0.0 20.0 40.0 60.0 -20.0 -30.0 -30.0 -40.0 -40.0 -50.0 -50.0 -60.0 -60.0 -60.0 -60.0 -40.0 -20.0 0.0 20.0 40.0 60.0 Gain (dBm) Gain (dBm) Rev B4 010717 10-23 RF2617 Output IP3 versus Gain 10.0 Output IP3 versus Gain 10.0 (VCC=2.7 V, 85 MHz) (VCC=3.0 V, 85 MHz) 0.0 0.0 -10.0 -10.0 OIP3 (dBm) -20.0 OIP3 (dBm) -30 C -20.0 -30.0 -30.0 -40.0 -40.0 -30 C -50.0 +25 C +80 C 60.0 -60.0 -60.0 -40.0 -20.0 0.0 20.0 40.0 60.0 -50.0 +25 C +80 C -60.0 -60.0 -40.0 -20.0 0.0 20.0 40.0 Gain (dBm) Gain (dBm) Output IP3 versus Gain 10.0 Noise Figure versus Gain 60.0 (VCC=3.3 V, 85 MHz) (VCC=2.7 V, 85 MHz) -30 C 0.0 +25 C 50.0 +80 C -10.0 40.0 OIP3 (dBm) NF (dB) -30 C +25 C +80 C -40.0 -20.0 0.0 20.0 40.0 60.0 -20.0 30.0 10 IF AMPLIERS -30.0 20.0 -40.0 -50.0 10.0 -60.0 -60.0 0.0 -60.0 -40.0 -20.0 0.0 20.0 40.0 60.0 Gain (dBm) Gain (dB) Noise Figure versus Gain 60.0 Noise Figure versus Gain 60.0 -30 C +25 C (VCC=3.0 V, 85 MHz) (VCC=3.3 V, 85 MHz) -30 C +25 C 50.0 +80 C 50.0 +80 C 40.0 40.0 NF (dB) 30.0 NF (dB) -40.0 -20.0 0.0 20.0 40.0 60.0 30.0 20.0 20.0 10.0 10.0 0.0 -60.0 0.0 -60.0 -40.0 -20.0 0.0 20.0 40.0 60.0 Gain (dB) Gain (dB) 10-24 Rev B4 010717 |
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