HBAT-540F Hewlett-Packard, HBAT-540F Datasheet - Page 6
HBAT-540F
Manufacturer Part Number
HBAT-540F
Description
(HBAT-540x) High Performance Schottky Diode
Manufacturer
Hewlett-Packard
Datasheet
1.HBAT-540F.pdf
(8 pages)
Applications Information
Schottky Diode Fundamentals
The HBAT-540x series of clipping/
clamping diodes are Schottky
devices. A Schottky device is a
rectifying, metal-semiconductor
contact formed between a metal
and an n-doped or a p-doped
semiconductor. When a metal-
semiconductor junction is formed,
free electrons flow across the
junction from the semiconductor
and fill the free-energy states in
the metal. This flow of electrons
creates a depletion or potential
across the junction. The differ-
ence in energy levels between
semiconductor and metal is called
a Schottky barrier.
P-doped, Schottky-barrier diodes
excel at applications requiring
ultra low turn-on voltage (such as
zero-biased RF detectors). But
their very low, breakdown-voltage
and high series-resistance make
them unsuitable for the clipping
and clamping applications involv-
ing high forward currents and high
reverse voltages. Therefore, this
discussion will focus entirely on
n-doped Schottky diodes.
Under a forward bias (metal
connected to positive in an
n-doped Schottky), or forward
voltage, V
electrons with enough thermal
energy to cross the barrier poten-
tial into the metal. Once the
applied bias exceeds the built-in
potential of the junction, the
forward current, I
rapidly as V
When the Schottky diode is
reverse biased, the potential
barrier for electrons becomes
large; hence, there is a small
probability that an electron will
have sufficient thermal energy to
F
, there are many
F
increases.
F
, will increase
cross the junction. The reverse
leakage current will be in the
nanoampere to microampere
range, depending upon the diode
type, the reverse voltage, and the
temperature.
In contrast to a conventional p-n
junction, current in the Schottky
diode is carried only by majority
carriers. Because no minority
carrier charge storage effects are
present, Schottky diodes have
carrier lifetimes of less than
100 ps and are extremely fast
switching semiconductors.
Schottky diodes are used as
rectifiers at frequencies of 50 GHz
and higher.
Another significant difference
between Schottky and p-n diodes
is the forward voltage drop.
Schottky diodes have a threshold
of typically 0.3 V in comparison to
that of 0.6 V in p-n junction
diodes. See Figure 6.
CAPACITANCE
Figure 6.
Through the careful manipulation
of the diameter of the Schottky
contact and the choice of metal
deposited on the n-doped silicon,
the important characteristics of
the diode (junction capacitance,
C
breakdown voltage, V
forward voltage, V
optimized for specific applica-
tions. The HSMS-270x series and
HBAT-540x series of diodes are a
case in point.
J
; parasitic series resistance, R
BIAS VOLTAGE
PN JUNCTION
–
P
N
+
0.6V
CURRENT
F
,) can be
CAPACITANCE
BR
SCHOTTKY JUNCTION
; and
BIAS VOLTAGE
–
METAL N
+
CURRENT
0.3V
S
;
Both diodes have similar barrier
heights; and this is indicated by
corresponding values of satura-
tion current, I
contact diameters and epitaxial-
layer thickness result in very
different values of junction
capacitance, C
portrayed by their SPICE param-
eters in Table 1.
Table 1. HBAT-540x and
HSMS-270x SPICE Parameters.
At low values of I
forward voltages of the two
diodes are nearly identical.
However, as current rises above
10 mA, the lower series resistance
of the HSMS-270x allows for a
much lower forward voltage. This
gives the HSMS-270x a much
higher current handling capability.
The trade-off is a higher value of
junction capacitance. The forward
voltage and current plots illustrate
the differences in these two
Schottky diodes, as shown in
Figure 7.
Parameter
BV
CJ0
EG
IBV
IS
N
RS
PB
PT
M
6
S
1.0E-7 A
10E-4 A
HBAT-
0.55 eV
3.0 pF
. Yet, different
J
2.4 Ω
540x
0.6 V
40 V
and R
1.0
0.5
2
F
≤ 1 mA, the
S
. This is
1.4E-7 A
10E-4 A
HSMS-
0.55 eV
6.7 pF
0.65 Ω
270x
0.6 V
25 V
1.04
0.5
2
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