MW51C2030MBR1 Motorola, MW51C2030MBR1 Datasheet
MW51C2030MBR1
Available stocks
Related parts for MW51C2030MBR1
MW51C2030MBR1 Summary of contents
Page 1
... RG1 GS1 Quiescent Current Temperature Compensation V GS2 Functional Block Diagram (1) Refer to AN1987/D, Quiescent Current Control for the RF Integrated Circuit Device Family http://www.motorola.com/semiconductors/rf . Select Documentation/Application Notes - AN1987. REV 2 MOTOROLA RF DEVICE DATA Motorola, Inc. 2004 MW5IC2030MBR1 MW5IC2030GMBR1 GSM/GSM EDGE CDMA, PHS ...
Page 2
... Input Return Loss Adjacent Channel Power Ratio Stability (0 dBm<P <43 dBm CW; 3:1 VSWR) out Gain Flatness in 30 MHz BW, 1930 - 1990 MHz (1) Refer to AN1955/D, Thermal Measurement Methodology of RF Power Amplifiers http://www.motorola.com/semiconductors/rf . Select Documentation/Application Notes - AN1955. MW5IC2030MBR1 MW5IC2030GMBR1 2 Stage 1, 27 Vdc 160 mA DQ ...
Page 3
... Delay Part to Part Phase Variation Part to Part Gain Variation (Per Lot or Reel) Reference FET to RF FET Scaling Ratio Delta (Stages 1 and 2) TYPICAL PHS PERFORMANCES (In Motorola Test Fixture, 50 οhm system) V 1.9 GHz, PHS Signal Mask Power Gain Power Added Efficiency Input Return Loss ...
Page 4
... T ATC 600S1R5AT - 250 - T ATC 600S3R9AT - 250 - T ATC 600S6R8AT - 250 - T ATC GRM215CB1H101CZ01D Murata GRM215CB1H4R7CZ01D Murata C1206C104K5RACT Kemet C0805C103K5RACT Kemet ECE - 1AVKS220 Panasonic ECA - 1HM331 Panasonic RK73B2ALTD102J KOA Speer RK73H2ATD4990F KOA Speer RK73B2ALTD104J KOA Speer MOTOROLA RF DEVICE DATA OUTPUT ...
Page 5
... C13 C7 C18 C15 C14 C11 Figure 2. MW5IC2030MBR1(GMBR1) Test Circuit Component Layout MOTOROLA RF DEVICE DATA C19 MW5IC2030M Rev C12 C1 C17 C16 R5 C10 C20 MW5IC2030MBR1 MW5IC2030GMBR1 5 ...
Page 6
... Vdc = 160 mA 230 mA DQ2 3rd Order 5th Order 7th Order OUTPUT POWER (WATTS) AVG. out versus Output Power MOTOROLA RF DEVICE DATA 100 ...
Page 7
... I = 160 mA 230 mA DQ1 DQ2 Center Frequency = 1960 MHz 16 Two−Tone Measurement, 100 kHz Spacing OUTPUT POWER (WATTS) PEP out Figure 11. Power Gain versus Output Power MOTOROLA RF DEVICE DATA TYPICAL CHARACTERISTICS 100 15 16 Figure 8 ...
Page 8
... DQ2 ACPR ALT2 ALT1 P , IS−95 OUTPUT POWER (dBm) out Output Power 2nd Stage 1st Stage 110 120 130 140 150 160 170 T , JUNCTION TEMPERATURE (° for MTTF in a particular application. D MOTOROLA RF DEVICE DATA 100 40 180 190 2 ...
Page 9
... MHz Z * load f = 2200 MHz Z Z Figure 19. Series Equivalent Input and Load Impedance MOTOROLA RF DEVICE DATA f = 2200 MHz = 50 Ω 160 mA 230 mA DD DQ1 DQ2 load MHz Ω 1800 49.7 - j9.3 6.9 - j0.3 1850 47.7 - j9.8 6.9 - j0.3 1930 44.8 - j8.5 6.7 - j0.1 1960 44.0 - j7.3 6.6 - j0.0 1990 44.6 - j5.6 6.6 + j0.1 2050 45.7 - j8.6 6.4 + j0.4 2100 42.5 - j8.3 6.2 + j0.8 2150 40 ...
Page 10
... N .270 −−− 6.86 −−− b .011 .017 0.28 0.43 b1 .037 .043 0.94 1.09 b2 .037 .043 0.94 1.09 b3 .225 .231 5.72 5.87 c1 .007 .011 .18 .28 e .054 BSC 1.37 BSC e1 .040 BSC 1.02 BSC .224 BSC 5.69 BSC e2 e3 .150 BSC 3.81 BSC r1 .063 .068 1.6 1.73 aaa .004 .10 MOTOROLA RF DEVICE DATA NOTE 6 ...
Page 11
... PIN ONE INDEX aaa DETAIL Y DATUM H PLANE DETAIL Y MOTOROLA RF DEVICE DATA aaa aaa 10X aaa SEATING C PLANE NOTES: 1. CONTROLLING DIMENSION: INCH. ...
Page 12
... Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “ ...