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AT-42070 Datasheet, PDF (2/5 Pages) Agilent(Hewlett-Packard) – Up to 6 GHz Medium Power Silicon Bipolar Transistor
AT-42070 Absolute Maximum Ratings
Symbol
VEBO
VCBO
VCEO
IC
PT
Tj
TSTG
Parameter
Emitter-Base Voltage
Collector-Base Voltage
Collector-Emitter Voltage
Collector Current
Power Dissipation [2,3]
Junction Temperature
Storage Temperature
Units
V
V
V
mA
mW
°C
°C
Absolute
Maximum[1]
1.5
20
12
80
600
200
-65 to 200
Electrical Specifications, TA = 25°C
Thermal Resistance[2,4]:
θjc = 150°C/W
Notes:
1. Permanent damage may occur if
any of these limits are exceeded.
2. TCASE = 25°C.
3. Derate at 6.7 mW/°C for TC > 110°C.
4. The small spot size of this tech-
nique results in a higher, though
more accurate determination of θjc
than do alternate methods. See
MEASUREMENTS section
“Thermal Resistance” for more
information.
Symbol
Parameters and Test Conditions[1]
Units Min. Typ. Max.
|S21E|2 Insertion Power Gain; VCE = 8 V, IC = 35 mA
f = 2.0 GHz dB 10.5 11.5
f = 4.0 GHz
5.5
P1 dB
Power Output @ 1 dB Gain Compression
VCE = 8 V, IC = 35 mA
f = 2.0 GHz dBm
21.0
f= 4.0 GHz
20.5
G1 dB 1 dB Compressed Gain; VCE = 8 V, IC = 35 mA
f = 2.0 GHz dB
15.0
f = 4.0 GHz
10.0
NFO Optimum Noise Figure: VCE = 8 V, IC = 10 mA
f = 2.0 GHz dB
1.9
f = 4.0 GHz
3.0
GA
Gain @ NFO; VCE = 8 V, IC = 10 mA
f = 2.0 GHz dB
14.0
f = 4.0 GHz
10.5
fT
Gain Bandwidth Product: VCE = 8 V, IC = 35 mA
hFE
Forward Current Transfer Ratio; VCE = 8 V, IC = 35 mA
ICBO Collector Cutoff Current; VCB = 8 V
IEBO Emitter Cutoff Current; VEB = 1 V
CCB
Collector Base Capacitance[1]: VCB = 8 V, f = 1 MHz
GHz
8.0
— 30 150 270
µA
0.2
µA
2.0
pF
0.28
Note:
1. For this test, the emitter is grounded.
4-165