MAAM-011258 75 , High Linearity, Low Noise, CATV Amplifier, 12 dB Gain Rev. V2 5 - 1218 MHz Features Functional Schematic Single Stage, Single Ended 5 V, 105 mA Operation 12 dB Flat Gain Low Noise Low Distortion Performance ESD Class 1C for HBM Lead-Free SOT-89 Plastic Package Halogen-Free Green Mold Compound RoHS* Compliant Description The MAAM-011258 is an RF amplifier assembled in a SOT-89 plastic package. This amplifier provides 12 dB of flat gain in both forward and reverse path applications. This amplifier provides excellent noise figure. Pin Configuration The MAAM-011258 provides high gain, low noise and low distortion making it ideally suited for 75 Pin No. Pin Name Function infrastructure applications. 1 RF RF Input IN The MAAM-011258 is fabricated using GaAs pHEMT technology. 2 GND RF and DC Ground 3 RF RF Output / V OUT DD 1,2 Ordering Information Package Part Number MAAM-011258-TR1000 1000 piece reel MAAM-011258-TR3000 3000 piece reel Sample Board, MAAM-011258-DSBSMB 45 - 1218 MHz Sample Board, MAAM-011258-USBSMB 5 - 300 MHz 1. Reference Application Note M513 for reel size information. 2. All production sample boards include 5 loose parts. * Restrictions on Hazardous Substances, European Union Directive 2011/65/EU. 1 PRELIMINARY: Data Sheets contain information regarding a product MACOM has under development. Performance is based on engineering tests. Specifications are typical. Mechanical outline has been fixed. Engineering samples and/or test data may be available. Commitment to produce in volume is not guaranteed. MACOM Technology Solutions Inc. (MACOM ) and its affiliates reserve the right to make changes to the product(s) or information contained herein without notice. For further information and support please visit: MAAM-011258 75 , High Linearity, Low Noise, CATV Amplifier, 12 dB Gain Rev. V2 5 - 1218 MHz Electrical Specifications: T = 25C, V = 5 V, Z = 75 A DD 0 Parameter Test Conditions Units Min. Typ. Max. Gain 45 - 1218 MHz dB 11.5 12 13.5 Tilt 45 - 1218 MHz dB 0.1 Reverse Isolation 45 - 1218 MHz dB 17 Input Return Loss 45 - 1218 MHz dB 20 Output Return Loss 45 - 1218 MHz dB 20 45 MHz 2.4 Noise Figure dB 1218 MHz 2.7 45 - 1218 MHz, tone spacing 6 MHz, Output IP2 dBm 52 P per tone = 2 dBm OUT 45 - 1218 MHz, tone spacing 6 MHz, Output IP3 dBm 37 P per tone = 2 dBm OUT P1dB dBm 18 79 channels, 0 dB Tilt, 32 dBmV per Composite Triple Beat, CTB dBc -75 channel output, QAM to 1000 MHz 79 channels, 0 dB Tilt, 32 dBmV per Composite Second Order, CSO dBc -65 channel output, QAM to 1000 MHz I V = 5 V mA 105 125 DD DD 5,6 Maximum Operating Conditions Absolute Maximum Ratings Parameter Absolute Maximum Parameter Absolute Maximum RF Input Power CW 12 dBm RF Input Power CW 30 dBm V 7 volts V 8 volts DD DD 3 Operating Temperature -40C to +85C Storage Temperature -55C to +150C 4 4 Junction Temperature +150C Junction Temperature +175C 3. Operating at nominal conditions with T 150C will ensure J 5. Exceeding any one or combination of these limits may cause 6 MTTF > 1 x 10 hours. permanent damage to this device. 6. MACOM does not recommend sustained operation near these 4. Junction Temperature (T ) = T + *(V*I) J C JC survivability limits. Typical thermal resistance ( ) = 44C/W. JC a) For T = 25C, C Handling Procedures T = 47C 5 V, 105 mA J Please observe the following precautions to avoid b) For T = 85C, C damage: T = 105C 5 V, 95 mA J Static Sensitivity Integrated Circuits are sensitive to electrostatic discharge (ESD) and can be damaged by static electricity. Proper ESD control techniques should be used when handling these HBM Class 1C devices. 2 PRELIMINARY: Data Sheets contain information regarding a product MACOM has under development. Performance is based on engineering tests. Specifications are typical. Mechanical outline has been fixed. Engineering samples and/or test data may be available. Commitment to produce in volume is not guaranteed. MACOM Technology Solutions Inc. (MACOM ) and its affiliates reserve the right to make changes to the product(s) or information contained herein without notice. For further information and support please visit: