Mitsubishi M67760HC Datasheet

MITSUBISHI RF POWER MODULE

Nov. ´97

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ηT

ρin

°C

M67760HC

896-941MHz, 12.5V, 20W, FM MOBILE RADIO

OUTLINE DRAWING

6±0.2

4±0.2

4.5±1

66±1 60±1

52±1

R1.5

16.5±1 10.5±1 10.5±112±1

0.5

±0.15

54±2

R2±0.2

Dimensions in mm

BLOCK DIAGRAM

PIN:

Pin : RF INPUT VBB : BASE BIAS SUPPLY VCC1: 1st. DC SUPPLY VCC2: 2nd. DC SUPPLY PO : RF OUTPUT GND: FIN

ABSOLUTE MAXIMUM RATINGS (Tc=25°C unless otherwise noted)

Symbol Parameter Conditions Ratings Unit

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

-30 to +110TC (OP) Operation case temperature

-40 to +110Tstg Strage temperature

Note. Above parameters are guaranteed independently.

ELECTRICAL CHARACTERISTICS (Tc=25°C unless otherwise noted)

Symbol Parameter Test conditions f PO

2fO

Frequency range Output power Total efficiency

2nd. harmonic Input VSWR

VBB=9V, VCC1=VCC2=12.5V, Pin=0.4W, ZG=ZL=50Ω

VBB=9V, VCC1=VCC2=12.5V, ZG=ZL=50Ω PO=20W (Pin:controlled)

VBB=9V, VCC1=12.5V, VCC2=15.5V,

Load VSWR tolerance

PO=20W (Pin:controlled), ZG=50Ω, Load VSWR=20:1

VBB=9V, f=896-902, 935-941MHz, VCC1=10

Stability

Note. Above parameters, ratings, limits and test conditions are subject to change.

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 degradation or destroy

No oscillation more than -60dBc

Limits Min Max 896 941

20 25

-30 3

V9.5VBB Base bias V14VCC1 Supply voltage V16.5VCC2 Supply voltage

A8.5ICC Total current W0.8Pin (max) Input power W25PO (max) Output power

Unit

MHz

W %

dBc

Nov. ´97

TYPICAL PERFORMANCE DATA

OUTPUT POWER, TOTAL EFFICIENCY

VS. FREQUENCY

ηT

100

MITSUBISHI RF POWER MODULE

M67760HC

896-941MHz, 12.5V, 20W, FM MOBILE RADIO

OUTPUT POWER, VS. INPUT POWER

VCC1=VCC2=12.5V VBB=9V ZG=ZL=50Ω

f=896MHz

941MHz

VCC1=VCC2=12.5V

VBB=9V Pin=400mW

ZG=ZL=50Ω 0 860 900 920 940 980

880 960

FREQUENCY f (MHz)

OUTPUT POWER, EACH CURRENT

100

0.1

VS. 1st. SUPPLY VOLTAGE

f=896MHz, VCC2=12.5V

VBB=9V, Pin=400mW

ZG=ZL=50Ω

2 6 8 10 120 14

1st. SUPPLY VOLTAGE VCC1 (V)

ICC2

ICC1

100

0.1 0.1

100

1 1000

OUTPUT POWER, EACH CURRENT

f=941MHz, VCC2=12.5V VBB=9V, Pin=400mW ZG=ZL=50Ω

1st. SUPPLY VOLTAGE VCC1 (V)

10 100

INPUT POWER Pin (mW)

VS. 1st. SUPPLY VOLTAGE

ICC2

ICC1

2 6 8 10 120 144

100

0.1

OUTPUT POWER, EACH CURRENT

VS. SUPPLY VOLTAGE

f=896MHz

VBB=9V

Pin=400mW

ZG=ZL=50Ω

ICC1

2 6 10 140 18

4 8 12 16

SUPPLY VOLTAGE VCC1=VCC2 (V)

ICC2

OUTPUT POWER, EACH CURRENT

VS. SUPPLY VOLTAGE

f=941MHz VBB=9V Pin=400mW ZG=ZL=50Ω

ICC1

2 6 10 140 18

4 8 12 16

SUPPLY VOLTAGE VCC1=VCC2 (V)

ICC2