MHW9227 Datasheet | Motorola Semiconductor

Features - - - - - - Specified for 79- , 112- and 132- Channel Loading Excellent Distortion Performance Higher Output Capability Built- in Input Diode Protection Ga As FET Transistor Technology Unconditionally Stable Under All Load Conditions 870 MHz 22.1 d B GAIN 132- CHANNEL Ga As CATV AMPLIFIER MODULE Applications Freescale Semiconductor, Inc... - CATV Systems Operating in the 47 to 870 MHz Frequency Range - Output Stage Amplifier in Optical Nodes, Line Extenders and Trunk Distribution Amplifiers for CATV Systems - Driver Amplifier in Linear General Purpose Applications Description - 24 Vdc Supply, 47 to 870 MHz, CATV Ga As Forward Power Doubler Amplifier MAXIMUM RATINGS Rating RF Voltage Input (Single Tone) DC Supply Voltage Operating Case Temperature Range Storage Temperature Range Symbol Vin VCC TC Tstg Value +70 +26 - 20 to +100 - 40 to +100 Unit d Bm V Vdc °C °C CASE 1302- 01, STYLE 1 ESD MAXIMUM RATINGS Rating Surge Voltage per IEC 1000- 4- 5 Human Body Model per Mil. Std. 1686 Input Value 200 2 Output Value 200 2 Unit V k V ELECTRICAL CHARACTERISTICS (VCC = 24 Vdc, TC = +45°C, 75 Ω system unless otherwise noted) Characteristic Frequency Range Power Gain Slope Gain Flatness (40- 870 MHz, Peak- to- Valley) Return Loss - Input/Output (Zo = 75 Ohms) 47- 500 MHz 501- 750 MHz 751- 870 MHz 870 MHz 47- 870 MHz Symbol BW Gp S - IRL 20 18 16 - - - - - - Min 47 21.5 0 - Typ - 22.1 0.5 - Max 870 22.7 1.0 0.7 Unit MHz d B d B d B d B REV 0 MOTOROLA RF DEVICE DATA  Motorola, Inc. 2002 For More Information On This Product, Go to: .freescale. MHW9227 1 Freescale Semiconductor, Inc. ELECTRICAL CHARACTERISTICS - continued (VCC = 24 Vdc, TC = +45°C, 75 Ω system unless otherwise noted) Characteristic posite Second Order (Vout = +48 d Bm V/ch., Worst Case) (Vout = +48 d Bm V/ch., Worst Case) (Vout = +48 d Bm V/ch., Worst Case) (Vout = +56 d Bm V @ 870 MHz Equiv) (Vout = +56 d Bm V @ 870 MHz Equiv) (Vout = +56 d Bm V @ 870 MHz Equiv) (Vout = +58 d Bm V @ 870 MHz Equiv) (Vout = +58 d Bm V @ 870 MHz...