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KH205 DATA SHEET
REV. 1A January 2004 5
Figure 4: Active Current Limit Circuit (50mA)
Controlling Bandwidth and Passband Response
In most applications, a feedback resistor value of 2kΩ
will provide optimum performance; nonetheless, some
applications may require a resistor of some other value.
The response versus Rfplot on the previous page shows
how decreasing Rfwill increase bandwidth (and frequency
response peaking, which may lead to instability).
Conversely, large values of feedback resistance tend to
roll off the response.
The best settling time performance requires the use of an
external feedback resistor (use of the internal resistor
results in a 0.1% to 0.2% settling tail). The settling
performance may be improved slightly by adding a
capacitance of 0.4pF in parallel with the feedback
resistor (settling time specifications reflect performance
with an external feedback resistor but with no external
capacitance).
Noise Analysis
Approximate noise figure can be determined for the
KH205 using the Equivalent Input Noise plot on page 3
and the equations shown below.
kT = 4.00 x 10-21 Joules at 290°K
Vnis spot noise voltage (V/√Hz)
inis non-inverting spot noise current (A/√Hz)
iiis inverting spot noise current (A/√Hz)
Figure 5: Noise Figure Diagram and Equations
(Noise Figure is for the Network Inside this Box.)
Driving Cables and Capacitive Loads
When driving cables, double termination is used to
prevent reflections. For capacitive load applications, a
small series resistor at the output of the KH205 will
improve stability and settling performance.
Transmission Line Matching
One method for matching the characteristic impedance
(Zo) of a transmission line or cable is to place the
appropriate resistor at the input or output of the amplifier.
Figure 6 shows typical inverting and non-inverting circuit
configurations for matching transmission lines.
Figure 6: Transmission Line Matching
Non-inverting gain applications:
nConnect Rgdirectly to ground.
nMake R1, R2, R6, and R7equal to Zo.
nUse R3to isolate the amplifier from reactive
loading caused by the transmission line,
or by parasitics.
Inverting gain applications:
nConnect R3directly to ground.
nMake the resistors R4, R6, and R7equal to Zo.
nMake R5II Rg= Zo.
The input and output matching resistors attenuate the
signal by a factor of 2, therefore additional gain is needed.
Use C6to match the output transmission line over a
greater frequency range. C6compensates for the increase
of the amplifier’s output impedance with frequency.
Dynamic Range (Intermods)
For RF applications, the KH205 specifies a third
order intercept of 30dBm at 60MHz and Po = 10dBm.
A2-Tone, 3rd Order IMD Intercept plot is found in
the Typical Performance Characteristics section.
The output power level is taken at the load. Third-order
harmonic distortion is calculated with the
formula:
HD3rd = 2 •(IP3o– Po)
FR
R
R
kT iV
R
Ri
RA
where R RR
RR AR
R
s
n
s
n
n
p
fi
pv
p
sn
sn v
f
g
=++⋅++
=+=+
10 1 4
1
2
2
2
22
22
log
;
Q3
(2N3906)
Rx
14.3kΩ
Q4
(2N3904)
0.01ΩF
0.01ΩF
+Vcc
Rc
12Ω
Q1
(MJE170)
Q2
(MJE180)
Rc
12Ω
-Vcc
to pin 10
to pin 12
K
KH205
+
-
R3Z0
R6
Vo
Z0
R1
R2
+
-
Rg
Z0
R4
R5
V1
V2+
-
Rf
C6
R7