NJSEMI BLX97 U.h.f. linear power transistor Datasheet

<^>£.mL-(-onauctoi iJ-^
, One.
20 STERN AVE.
SPRINGFIELD, NEW JERSEY 07081
U.S.A.
TELEPHONE: (973) 376-2922
(212)227-6005
FAX: (973) 376-8960
BLX97
U.H.F. LINEAR POWER TRANSISTOR
N-P-N multi-emitter silicon planar epitaxial transistor primarily for use in linear u.n.f. amplifiers for
television transposes and transmitters.
Features:
• guaranteed low intermodulation figures;
* gold metallization ensures excellent reliability.
The transistor has a !i" capstan envelope with a moulded cap. All leads are isolated from the stud.
QUICK REFERENCE DATA
R.F. performance in linear amplifier
tion
mode of operation
class A
class-A
^vision
MHz
VCE
V
'C
mA
Th
°C
dim*
dB
p sync *
"o
W
Gp
dB
860
860
25
25
500
500
25
25
-60
-60
>
1.0
typ. 1.1
> 5,5
typ. 6,5
* Three-tone test method (vision carrier —8 dB, sound carrier —7 dB, sideband signal —16 dB), zero dB
corresponds to peak sync level.
MECHANICAL DATA
Dimensions in mm
Fig. 1 SOT-48/3.
— — 0,14
Torque on nut: min. 0,75 Nm
(7,5 kg cm)
max. 0,85 Nm
(8,5 kg cm)
Diameter of clearance hole in heatsink: max. 4,2 mm.
Mounting hole to have no burrs at either end.
De-burring must leave surface flat; do not chamfer or
countersink either end of hole.
When locking is required an adhesive is preferred instead of a lock washer.
PRODUCT SAFETY This device incorporates beryllium oxide, the dust of which is toxic. The device
is entirely safe provided that the BaO disc is not damaged.
NJ Semi-Conductors reserves the right to change test conditions, parameter limits and package dimensions without
notice. Information furnished by NJ Semi-Conductors is believed to be both accurate and reliable at the time of going
to press. However, NJ Semi-Conductors assumes no responsibility for any errors or omissions discovered in its use.
NJ Semi-Conductors encourages customers to verify that datasheets are current before placing orders.
Quality Semi-Conductors
BLX97
RATINGS Limiting values In accordance with the Absolute Maximum System (IEC134)
Collector-base voltage (opea emitter; peak value)
VCBOM
max.
40
V
Collector-emitter voltage (Rgg = 10Q;peak value)
V CERM
max.
40
V
max.
27
V
Collector-emitter voltage (open base)
V CEO
Emitter-base voltage (open collector)
VEBO
max.
3,5
V
Collector current ( d . c . )
Ic
max.
0,8
A
max.
2
A
max.
12,5
W
Collector current (peak value) f > 1 MHz
T CM
Total power dissipation up to Tn = 100 °C
p
D.C. SOAR
, < luu
100 °c
T
1a
p •h mb-h 0,6 K/W
—^ "
•
(mA)
103
1 1at
max t<\ \
^V
102
10
10
VCE (V) io2
Storage temperature
T
Junction temperature
TJ
-65 to +200
°C
max,
200
°C
j-mb
7,5
K/W
^h mb-h
0,6
. K/W
stg
THERMAL RESISTANCE
From junction to mounting base
From mounting base to heats ink
R th
BLX97
CHARACTERISTICS
TJ = 25 °C unless otherwise specified
Collector cut-off current
IE = 0; VCB = 20 V
200
pA
V (BR)CBO
40
V
V (BR)CER
40
27
V
V
3,5
V
0,75
V
'CBO
Breakdown voltages
Collector-base voltage
open emitter; IQ = 2 mA
Collector-emitter voltage
R B E = 10 Q; Ic = 10 mA
open base; I^. = 10 mA
Emitter-base voltage
open collector; !E = 2 mA
V(BR)CEO
V (BR)EBO
Saturation voltage
Ic = 400 mA; IQ = 40 mA
V CE S at
*
D,C. current gain
Ic = 400 mA; V CE = 20 V
30
FE
Ic = 800 mA; V CE = 20 V
20
Transition frequency
Ic = 400 mA; V CE = 20 V
1,2
GHz
Ic = 700 mA; V CE = 20 V
1,0
GHz
Collector capacitance at f = 1 MHz
20
pF
typ.
7
pF
typ.
2
pF
I E = le = 0; VCB = M v
Feedback capacitance at f = 1 MHz
I c - 2 0 m A ! V C E = 2 0 V ; T m h = 25
Collector-stud capacitance
Similar pages