MITSUBISHI RF POWER MODULE M67760HC 896-941MHz, 12.5V, 20W, FM MOBILE RADIO Dimensions in mm OUTLINE DRAWING BLOCK DIAGRAM 66±1 2 3 4 60±1 6±0.2 52±1 1 R1.5 2 5 R2±0.2 1 2 3 4 5 6 6 0.5 ±0.15 4±0.2 4.5±1 16.5±1 10.5±1 12±1 PIN: 1 Pin : RF INPUT 2 VBB : BASE BIAS SUPPLY 3 VCC1 : 1st. DC SUPPLY 4 VCC2 : 2nd. DC SUPPLY 5 PO : RF OUTPUT 6 GND: FIN 10.5±1 54±2 H3 ABSOLUTE MAXIMUM RATINGS (Tc=25°C unless otherwise noted) Symbol VBB VCC1 VCC2 ICC Pin (max) PO (max) TC (OP) Tstg Parameter Base bias Supply voltage Supply voltage Total current Input power Output power Operation case temperature Strage temperature Conditions VBB=9V ZG=ZL=50Ω, VBB=9V ZG=ZL=50Ω, VCC1≤12.5V f=896-941MHz, ZG=ZL=50Ω ZG=ZL=50Ω ZG=ZL=50Ω Ratings 9.5 14 16.5 8.5 0.8 25 -30 to +110 -40 to +110 Unit V V V A W W °C °C Note. Above parameters are guaranteed independently. ELECTRICAL CHARACTERISTICS (Tc=25°C unless otherwise noted) Symbol f Parameter Test conditions Frequency range Limits Min 896 Max 941 Unit MHz PO Output power VBB=9V, VCC1=VCC2=12.5V, Pin=0.4W, ZG=ZL=50Ω ηT 2fO ρin Total efficiency 2nd. harmonic Input VSWR VBB=9V, VCC1=VCC2=12.5V, ZG=ZL=50Ω PO=20W (Pin:controlled) Load VSWR tolerance VBB=9V, VCC1=12.5V, VCC2=15.5V, PO=20W (Pin:controlled), ZG=50Ω, Load VSWR=20:1 No degradation or destroy - Stability VBB=9V, f=896-902, 935-941MHz, VCC1=10 to 12.5V, VCC2=10 to 15.5V (VCC1≤VCC2), PO=0 to 20W (Pin:controlled less than 0.4W), ZG=50Ω, Load VSWR≤3:1 (All phase) No oscillation more than -60dBc - - - 20 W 25 -30 3 % dBc - Note. Above parameters, ratings, limits and test conditions are subject to change. Nov. ´97 MITSUBISHI RF POWER MODULE M67760HC 896-941MHz, 12.5V, 20W, FM MOBILE RADIO TYPICAL PERFORMANCE DATA OUTPUT POWER, TOTAL EFFICIENCY VS. FREQUENCY 50 OUTPUT POWER, VS. INPUT POWER 100 40 40 VCC1=VCC2=12.5V VBB=9V ZG=ZL=50Ω 80 f=896MHz 941MHz 30 PO 30 60 20 ηT 20 40 10 VCC1=VCC2=12.5V VBB=9V Pin=400mW ZG=ZL=50Ω 10 0 860 880 900 20 920 940 960 0 980 0 1 10 FREQUENCY f (MHz) OUTPUT POWER, EACH CURRENT VS. 1st. SUPPLY VOLTAGE 100 f=896MHz, VCC2=12.5V VBB=9V, Pin=400mW ZG=ZL=50Ω 100 ICC2 1 10 10 1 1 2 4 6 8 10 12 PO 10 ICC2 1 ICC1 0.1 0 100 f=941MHz, VCC2=12.5V VBB=9V, Pin=400mW ZG=ZL=50Ω PO 10 1000 INPUT POWER Pin (mW) OUTPUT POWER, EACH CURRENT VS. 1st. SUPPLY VOLTAGE 100 100 ICC1 0.1 14 0.1 0 2 4 6 8 10 12 0.1 14 1st. SUPPLY VOLTAGE VCC1 (V) 1st. SUPPLY VOLTAGE VCC1 (V) OUTPUT POWER, EACH CURRENT VS. SUPPLY VOLTAGE OUTPUT POWER, EACH CURRENT VS. SUPPLY VOLTAGE 10 50 f=896MHz VBB=9V Pin=400mW ZG=ZL=50Ω 10 50 f=941MHz VBB=9V Pin=400mW ZG=ZL=50Ω PO PO 8 40 30 6 30 6 20 4 20 4 10 2 10 2 0 10 12 14 16 18 0 40 ICC2 8 ICC2 ICC1 0 0 2 4 6 8 SUPPLY VOLTAGE VCC1=VCC2 (V) ICC1 0 2 4 6 8 0 10 12 14 16 18 SUPPLY VOLTAGE VCC1=VCC2 (V) Nov. ´97