MITSUBISHI RF POWER MODULE M68762SL Silicon Bipolar Power Amplifier, 350-400MHz 30W FM Mobile Dimensions in mm OUTLINE DRAWING BLOCK DIAGRAM 66+/-0.5 3 4 2 10+/-0.5 1 3 4 5 6 1 5 6 14+/-1 phi 0.45 +/-0.2 22.5+/-0.5 2-R2+/-0.5 21.5+/-0.5 51.5+/-0.5 1.5+0.8/-0 4+/-0.3 21+/-0.5 2 60+/-0.5 3+/-0.3 7.25+/-0.8 12+/-1 16.5+/-1 7.5+0.8/-0 33.0+/-1 43.5+/-1 H3 2.3+/-0.3 3.1+/-0.4 (9.8) 55.5+/-1 PIN: 1 Pin : RF INPUT 2 Vcc1: 1st. DC SUPPLY 3 Vcc2: 2nd. DC SUPPLY 4 Vcc3: 3rd. DC SUPPLY 5 Po : RF OUTPUT 6 GND : FIN MAXIMUM RATINGS (Tc=25deg C UNLESS OTHERWISE NOTED) SYMBOL PARAMETER Vcc SUPPLY VOLTAGE Icc TOTAL CURRENT Pin INPUT POWER Po OUTPUT POWER Tc(OP) OPERATION CASE TEMPERATURE Tstg STORAGE TEMPERATURE Note:Above parameters are guaranteed independently. CONDITIONS ZG=ZL=50 ohms ZG=ZL=50 ohms Vcc1<12.5V, ZG=ZL=50 ohms Vcc1<12.5V, ZG=ZL=50 ohms ZG=ZL=50 ohms RATINGS 17 10 600 40 -30 to +110 -40 to +110 UNIT V A mW W deg. C deg. C ELECTRICAL CHARACTERISTICS (Tc=25deg.C UNLESS OTHERWISE NOTED) SYMBOL f Po Efficiency 2fo 3fo VSWR in - PARAMETER FREQUENCY RANGE OUTPUT POWER TOTAL EFFICIENCY 2nd HARMONIC 3rd HARMONIC INPUT VSWR STABILITY (note 1) TEST CONDITIONS VCC=12.5V, Pin=0.3W, ZG=ZL=50 ohms ZG=50 ohms, VCC1=5-12.5V, Vcc2=Vcc3=10-16V (Vcc1<Vcc2=Vcc3) Po<40W (Pin control), Load VSWR < 3.0:1(all phase) VSWRT LOAD VSWR TOLERANCE VCC=15.2V,Po=30W(Pin control) ZG=50 ohms, LOAD VSWR=20:1 NOTE: Above parameters, ratings, limits and conditions are subject to change. NOTE1: Stability is tested by sampling test (10pcs/LOT) LIMITS MIN MAX 350 400 30 40 -30 -30 3.5 No parasitic oscillation UNIT No degradation or destroy - MHz W % dBc dBc - Keep safety first in your circuit designs! Mitsubishi Electric Corporation puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage. Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of non-flammable material or (iii) prevention against any malfunction or mishap.