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| Features * * * * * * * * Quad-band GsM/GPrs/eDGe Power Amplifier Module with Integrated Power Control Data sheet - rev 2.0 AWT6155 Internal Reference Voltage Integrated Power Control InGaP HBT Technology ESD Protection on All Pins (2.5 kV) Low profile 1.0 mm Small Package Outline 5 mm x 5 mm EGPRS Capable (class 12) RoHS Compliant Package, 250 oC MSL-3 AW T GMsK MODe * +34.8 dBm GSM850/900 Output Power * +33 dBm DCS/PCS Output Power * 55 % GSM 900 PAE * 51 % DCS/PCS PAE * Power control range > 50 dB eDGe MODe * +29 dBm GSM850/900 Output Power * +28.5 dBm DCS/PCS Output Power * 28% GSM850/900 PAE * 28% DCS/PCS PAE * -64 dBc Typical ACPR (400 kHz) * -74 dBc Typical ACPR (600 kHz) 615 5R M37 Package 11 Pin 5 mm x 5 mm x 1.0 mm surface Mount Module aPPLICatIONs * Dual/Tri/Quad Band Handsets, PDAs, and Data Devices The amplifier's power control range is typically 55 dB, with the output power set by applying an analog voltage to VRAMP. All of the RF ports for this device are internally matched to 50 . PrODuCt DesCrIPtION This power amplifier module supports dual, tri and quad band applications for GMSK and 8-PSK modulation schemes using a polar architecture. There are two amplifier chains, one to support GSM850/900 bands, the other for DCS/PCS bands. Each amplification chain is optimized for excellent EDGE efficiency, power, and linearity in a Polar loop environment while maintaining high efficiency in the GSM/GPRS mode. The module includes an internal reference voltage and integrated power control scheme for use in both GMSK and 8-PSK operation. This facilitates fast and easy production calibration and reduces the number of external components required to complete a power control function. DCS/PCS_IN DCS/PCS DCS/PCS_OUT BS TX_EN VBATT VRAMP GSM850/900_IN GSM850/900_OUT Bias/Power Control GSM850/900 Figure 1: Block Diagram 02/2009 AWT6155 DCS/PCS_IN BS TX_EN VBATT VRAMP 1 2 3 4 5 6 7 8 11 DCS/PCS_OUT 10 N/C GND CEXT GND GSM850/900_IN 9 GSM850/900_OUT Figure 2: Pinout (X - ray top View) table 1: Pin Description PIN NaMe DesCrIPtION RF input to the DCS/PCS PA. There is a 175 shunt resistor before the DC blocking capacitor to set the input impedance. PIN NaMe DesCrIPtION 1 DCS/PCS_IN 7 GND Ground 2 BS Band Select Logic Input 8 GSM850/900_IN RF Input to GSM850/900 PA. There is a 185 shunt resistor before the DC blocking capacitor to set the input impedance. 3 4 5 6 TX_EN VBATT VRAMP CEXT TX Enable Logic Input Battery Supply Connection Analog Signal used to control output power Bypass (VREG) 9 10 11 GSM850/900_OUT GSM900 RF Output N/C DCS/PCS_OUT No Connection Do not connect to ground DCS RF Output 2 Data Sheet - Rev 2.0 02/2009 AWT6155 eLeCtrICaL CHaraCterIstICs table 2: absolute Maximum ratings ParaMeter Supply Voltage (VBATT) RF Input Power (RFIN) Control Voltage (VRAMP) Storage Temperature (TSTG) MIN -0.3 -55 MaX +5.5 11 1.8 150 uNIts V dBm V C stresses in excess of the absolute ratings may cause permanent damage. Functional operation is not implied under these conditions. exposure to absolute ratings for extended periods of time may adversely affect reliability. DCS/PCS_IN >+2500 V <-2500 V BS >+2500 V <-2500 V TX_EN >+2500 V <-2500 V VBATT >+2500 V <-2500 V VRAMP >+2500 V <-2500 V CEXT >+2500 V <-2500 V GND GSM850/900_IN >+2500 V <-2500 V 1 2 3 4 5 6 7 8 Figure 3: esD Pin rating 11 DCS/PCS_OUT >+2500 V <-2500 V 10 GND N/C 9 GSM850/900_OUT >+2500 V <-2500 V eLeCtrOstatIC DIsCHarGe seNsItIVItY The AWT6155 part was tested to determine the ESD sensitivity of each package pin with respect to ground. All the package pins were subjected to an ESD pulse event using the Human Body Model outlined in JESD22-A114C.01 in either polarity with respect to ground. The pre and post test I-V characteristics of each pin are recorded. The ratings on each pin require that it sustain the ESD event and show no degradation. 3 Data Sheet - Rev 2.0 02/2009 AWT6155 table 3: Operating Conditions ParaMeter Case temperature (TC) Supply voltage (VBATT) Power supply leakage current Control Voltage Range Turn on Time (TON) Turn Off Time (TOFF) Rise Time (TRISE) Fall Time (TFALL) VRAMP Input Capacitance VRAMP Input Current Duty Cycle MIN -20 3.0 0.2 - tYP 3.5 1 3 - MaX +85 4.8 10 1.6 1 1 1 1 10 50 uNIts C V A V s s s s pF A % COMMeNts VBATT = 4.8 V, VRAMP = 0 V, TX_EN = LOW No RF applied VRAMP = 0.2 V, TX_EN = LOW Y HIGH PIN = 5 dBm VRAMP = 0.2 V, TX_EN = HIGH Y LOW PIN = 5 dBm POUT = PMAX Y -10 dBm (within 0.2 dB) POUT = -10 dBm Y PMAX (within 0.2 dB) the device may be operated safely over these conditions; however, parametric performance is guaranteed only over the conditions defined in the electrical specifications. table 4: Digital Inputs ParaMeter Logic High Voltage Logic Low Voltage Logic High Current Logic Low Current sYMBOL VIH VIL |IIH| |IIL| MIN 1.2 - tYP - MaX 3.0 0.5 30 30 uNIts V V A A table 5: Logic Control table OPeratIONaL MODe GSM850/900 DCS/PCS PA DISABLED Bs LOW HIGH - tX_eN HIGH HIGH LOW 4 Data Sheet - Rev 2.0 02/2009 AWT6155 table 6: electrical Characteristics for GsM850 GMsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, Pulse Width = 1154 s, Duty = 25% ZIN = ZOUT = 50 , tC = 25 C, VRAMP = 1.6 V, Bs = LOW, tX_eN = HIGH ParaMeter Operating Frequency Input Power (PIN) Output Power (PMAX) Degraded Output Power (POUT) PAE @ PMAX Forward Isolation 1 Forward Isolation 2 Cross Isolation (2Fo @ DCS/PCS port) Cross Isolation (3Fo @ DCS/PCS port) Second Harmonic Third Harmonic n * fo (n > 4), Fo 12.75 GHz ( FIN ) MIN 824 0 34.0 32 48 - tYP 3 34.8 32.8 53 -49 -29 -30 -20 -23 -18 -30 MaX 849 5 -30 -15 -20 -12 -10 -10 -10 uNIt MHz dBm dBm dBm % dBm dBm dBm dBm dBm dBm dBm COMMeNts Freq = 824 to 849 MHz VBATT = 3.0 V, TC = +85 C PIN = 0 dBm Freq = 824 to 849 MHz TX_EN = 0 V, PIN = 5 dBm TX_EN = HIGH ,VRAMP = 0.2 V PIN = 5 dBm POUT < 34.0 dBm POUT < 34.0 dBm POUT < 34.0 dBm POUT < 34.0 dBm POUT < 34.0 dBm VSWR = 6:1 All Phases , POUT < 34.0 dBm Stability Ruggedness RX Noise Power Input Return Loss -36 -30 dBm dBm FOUT < 1 GHz FOUT > 1 GHz POUT < 34.0 dBm FTX = 849 MHz, RBW = 100 kHz, FRX = 869 to 894 MHz, POUT < 34.0 dBm POUT < 34.0 dBm No Permanent Degradation VSWR 10:1, All Phase Angles -88 1.5:1 -82 2.5:1 dBm VSWR Data Sheet - Rev 2.0 02/2009 5 AWT6155 table 7: electrical Characteristics for GsM850 8PsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, Pulse Width = 1154 s, Duty = 25% ZIN = ZOUT = 50 , tC = 25 C, Bs = LOW, tX_eN = HIGH ParaMeter Operating Frequency Input Power PAE ACPR 200 kHz 400 kHz 600 kHz 1800 kHz EVM ( FIN ) MIN 824 0 20 tYP 3 28 MaX 849 5 - uNIt MHz dBm % COMMeNts FIN = 824 to 849 MHz POUT set = +29 dBm - -37 -62 -74 -78 1 -34 -58 -64 -66 5 dBc/30 kHz dBc/30 kHz dBc/30 kHz dBc/100 kHz % All conditions under Polar operation POUT = +29 dBm All Conditions under Polar operation POUT = +29 dBm 6 Data Sheet - Rev 2.0 02/2009 AWT6155 table 8: electrical Characteristics for GsM900 GMsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, Pulse Width = 1154 s, Duty = 25% ZIN = ZOUT = 50 , tC = 25 C, VRAMP = 1.6 V, Bs = LOW, tX_eN = HIGH ParaMeter Operating Frequency Input Power (PIN) Output Power (PMAX) Degraded Output Power (POUT) PAE @ PMAX Forward Isolation 1 Forward Isolation 2 Cross Isolation (2Fo @ DCS/PCS port) Cross Isolation (3Fo @ DCS/PCS port) Second Harmonic Third Harmonic n * fo (n > 4), Fo 12.75 GHz ( FIN ) MIN 880 0 34.0 32 50 - tYP 3 34.8 32.8 56 -46 -28 -24 -21 -22 -18 -29 MaX 915 5 -30 -15 -18 -12 -10 -10 -8 uNIt MHz dBm dBm dBm % dBm dBm dBm dBm dBm dBm dBm COMMeNts Freq = 880 to 915 MHz VBATT = 3.0 V, TC = +85 C PIN = 0 dBm Freq = 880 to 915 MHz TX_EN = 0 V, PIN = 5 dBm TX_EN = HIGH ,VRAMP = 0.2 V PIN = 5 dBm POUT < 34.0 dBm POUT < 34.0 dBm POUT < 34.0 dBm POUT < 34.0 dBm POUT < 34.0 dBm VSWR = 6:1 All Phases , POUT < 34.0 dBm Stability Ruggedness -36 -30 dBm dBm FOUT < 1 GHz FOUT > 1 GHz POUT < 34.0 dBm FTX = 915 MHz, RBW = 100 kHz, FRX = 925 to 935 MHz, POUT < 34.0 dBm FTX = 915 MHz, RBW = 100 kHz, FRX = 935 to 960 MHz, POUT < 34.0 dBm POUT < 34.0 dBm No Permanent Degradation VSWR 10:1, All Phase Angles -87 -87 1.5:1 -76 -82 2.5:1 dBm dBm VSWR RX Noise Power Input Return Loss - Data Sheet - Rev 2.0 02/2009 7 AWT6155 table 9: electrical Characteristics for GsM900 8PsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, Pulse Width = 1154 s, Duty = 25% ZIN = ZOUT = 50 , tC = 25 C , Bs = LOW, tX_eN = HIGH ParaMeter Operating Frequency Input Power PAE ACPR 200 kHz 400 kHz 600 kHz 1800 kHz EVM ( FIN ) MIN 880 0 20 tYP 3 28 MaX 915 5 - uNIt MHz dBm % COMMeNts FIN = 880 to 915 MHz POUT set = +29 dBm - -38 -65 -74 -78 1 -34 -58 -64 -66 5 dBc/30 kHz dBc/30 kHz dBc/30 kHz dBc/100 kHz % All conditions under Polar operation POUT = +29 dBm All Conditions under Polar operation POUT = +29 dBm 8 Data Sheet - Rev 2.0 02/2009 AWT6155 table 10: electrical Characteristics for DCs GMsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, VRAMP = 1.6 V, Pulse Width = 1154 s Duty = 25%, ZIN = ZOUT = 50 , tC = 25 C , Bs = HIGH, tX_eN = HIGH ParaMeter Operating Frequency Input Power (PIN) Output Power (PMAX) Degraded Output Power (POUT) PAE @ PMAX Forward Isolation 1 Forward Isolation 2 Second Harmonic Third Harmonic n * fo (n > 4), Fo 12.75 GHz ( FIN ) MIN 1710 0 32.0 30.0 45 - tYP 3 32.9 31.0 51 -46 -27 -19 -30 -34 MaX 1785 5 -30 -15 -10 -15 -8 uNIt MHz dBm dBm dBm % dBm dBm dBm dBm dBm COMMeNts Freq = 1710 to1785 MHz VBATT = 3.0 V, TC = +85 C PIN = 0 dBm Freq = 1710 to1785 MHz TX_EN = 0 V, PIN = 5 dBm TX_EN = HIGH ,VRAMP = 0.2 V PIN = 5 dBm POUT < 32.0 dBm POUT < 32.0 dBm POUT < 32.0 dBm VSWR = 8:1 All Phases , POUT < 32.0 dBm Stability Ruggedness RX Noise Power Input Return Loss -36 -30 dBm dBm FOUT < 1 GHz FOUT > 1 GHz POUT < 32.0 dBm FTX = 1785 MHz, RBW = 100 kHz, FRX = 1805 to1880 MHz, POUT < 32.0 dBm POUT < 32.0 dBm No Permanent Degradation VSWR 10:1, All Phase Angles -89 1.5:1 -82 2.5:1 dBm VSWR Data Sheet - Rev 2.0 02/2009 9 AWT6155 table 11: electrical Characteristics for DCs 8PsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, Pulse Width = 1154 s, Duty = 25% ZIN = ZOUT = 50 , tC = 25 C , Bs = HIGH, tX_eN = HIGH ParaMeter Operating Frequency Input Power PAE ACPR 200 kHz 400 kHz 600 kHz 1800 kHz EVM ( FIN ) MIN 1710 0 22 tYP 3 28 MaX 1785 5 - uNIt MHz dBm % COMMeNts FIN = 1710 to 1785 MHz POUT set = +28.5 dBm - -37 -64 -74 -78 1 -34 -58 -64 -66 5 dBc/30 kHz dBc/30 kHz dBc/30 kHz dBc/100 kHz % All conditions under Polar operation POUT = +28.5 dBm All Conditions under Polar operation POUT = +28.5 dBm 10 Data Sheet - Rev 2.0 02/2009 AWT6155 table 12: electrical Characteristics for PCs GMsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, VRAMP = 1.6 V, Pulse Width = 1154 s Duty = 25%, ZIN = ZOUT = 50 , tC = 25 C , Bs = HIGH, tX_eN = HIGH ParaMeter Operating Frequency Input Power (PIN) Output Power (PMAX) Degraded Output Power (POUT) PAE @ PMAX Forward Isolation 1 Forward Isolation 2 Second Harmonic Third Harmonic n * fo (n > 4), Fo 12.75 GHz (FIN) MIN 1850 0 32.0 30.0 45 - tYP 3 32.9 31.0 51 -45 -27 -26 -34 -33 MaX 1910 5 -30 -15 -10 -15 -8 uNIt MHz dBm dBm dBm % dBm dBm dBm dBm dBm COMMeNts Freq = 1850 to1910 MHz VBATT = 3.0 V, TC = +85 C PIN = 0 dBm Freq = 1850 to1910 MHz TX_EN = 0 V, PIN = 5 dBm TX_EN = HIGH ,VRAMP = 0.2 V PIN = 5 dBm POUT < 32.0 dBm POUT < 32.0 dBm POUT < 32.0 dBm VSWR = 8:1 All Phases , POUT < 32.0 dBm Stability Ruggedness RX Noise Power Input Return Loss -36 -30 dBm dBm FOUT < 1 GHz FOUT > 1 GHz POUT < 32.0 dBm FTX = 1910 MHz, RBW = 100 kHz, FRX = 1930 to1990 MHz, POUT < 32.0 dBm POUT < 32.0 dBm No Permanent Degradation VSWR 10:1, All Phase Angles -90 1.5:1 -82 2.5:1 dBm VSWR Data Sheet - Rev 2.0 02/2009 11 AWT6155 table 13: electrical Characteristics for PCs 8PsK mode Unless otherwise specified: VBATT = 3.5 V, PIN = 3.0 dBm, Pulse Width = 1154 s, Duty = 25% ZIN = ZOUT = 50 , tC = 25 C , Bs = HIGH, tX_eN = HIGH ParaMeter Operating Frequency Input Power PAE ACPR 200 kHz 400 kHz 600 kHz 1800 kHz EVM (FIN) MIN 1850 0 22 tYP 3 28 MaX 1910 5 - uNIt MHz dBm % COMMeNts FIN = 1850 to 1910 MHz POUT set = +28.5 dBm - -37 -64 -74 -78 1 -34 -58 -64 -66 5 dBc/30 kHz dBc/30 kHz dBc/30 kHz dBc/100 kHz % All conditions under Polar operation POUT = +28.5 dBm All Conditions under Polar operation POUT = +28.5 dBm 12 Data Sheet - Rev 2.0 02/2009 AWT6155 aPPLICatION INFOrMatION DCS/PCS RF INPUT BSEL TXEN VBAT RAMP 47F 3) 12pF 2) 33pF 3) 33pF 3) 2.7pF 2) 68pF 1) 22nF 2) GSM RF INPUT 1 2 3 4 5 6 7 8 DCS/PCS_IN BS TX_EN V BATT V RAMP C EXT GND GSM_IN DCS/PCS_OUT 11 Matching 4) AWT6155 10 N/C 2.2k 1) asM or FeM GSM_OUT 9 Matching 4) 1) Component values depends on baseband chipset used. 2) This component should be placed as close to the device pin as possible. 3) These components are recommended as good design practice for improving noise rejection characteristics . The values specified are not critical as they may not be required in the final application. 4) Actual matching component values depend on PCB layout and ASM/FEM used. Figure 4: recommended application Circuit Figure 5: Branding Specification Diagram Data Sheet - Rev 2.0 02/2009 13 AWT6155 PaCKaGe OutLINe Figure 6: M37 Package Outline (P800-2414) - 11 Pin 5 mm x 5 mm x 1.0 mm surface Mount Module 14 Data Sheet - Rev 2.0 02/2009 AWT6155 Figure 7: recommended PCB Layout Information Data Sheet - Rev 2.0 02/2009 15 AWT6155 OrDerING INFOrMatION OrDer NuMBer AWT6155RM37P8 teMPerature raNGe -20 C to +85C PaCKaGe DesCrIPtION RoHS-compliant 11 Pin 5 mm x 5 mm x 1.0 mm Surface Mount Module RoHS-compliant 11 Pin 5 mm x 5 mm x 1.0 mm Surface Mount Module COMPONeNt PaCKaGING Tape and Reel, 2500 pieces per reel AWT6155RM37P9 -20 C to +85C Partial Tape and Reel aNaDIGICs, Inc. 141 Mount Bethel Road Warren, New Jersey 07059, U.S.A. Tel: +1 (908) 668-5000 Fax: +1 (908) 668-5132 URL: http://www.anadigics.com E-mail: Mktg@anadigics.com IMPOrtaNt NOtICe ANADIGICS, Inc. reserves the right to make changes to its products or to discontinue any product at any time without notice. The product specifications contained in Advanced Product Information sheets and Preliminary Data Sheets are subject to change prior to a product's formal introduction. Information in Data Sheets have been carefully checked and are assumed to be reliable; however, ANADIGICS assumes no responsibilities for inaccuracies. ANADIGICS strongly urges customers to verify that the information they are using is current before placing orders. ANADIGICS products are not intended for use in life support appliances, devices or systems. Use of an ANADIGICS product in any such application without written consent is prohibited. WarNING 16 Data Sheet - Rev 2.0 02/2009 |
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