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(KE Series) Encased Amplifiers



Fairchild Semiconductor 로고
Fairchild Semiconductor
KE103 데이터시트, 핀배열, 회로
www.DataSheet4U.com
KE Series
Encased Amplifiers
www.fairchildsemi.com
Features
I Wide bandwidth, fast settling, high slew rate
I Low distortion and overshoot
I Linear phase
I Easy to use encased form
I Direct replacement for E103, E104, E200,
E220, and E231
Applications
I For use on the bench or in a test station as a video
amp, pulse amp, line driver, etc.
I “drop in” units for radar and
communication systems
0.688
(17.5)
1.625
(41.3)
Feedthru
2.000
(50.8)
1.500
(38.1)
0.250
(6.4)
1.500
(38.1)
3.000
(76.2)
2.500
(63.5)
0.250
(6.4)
Bottom
0.625
(15.9)
1.000
(25.4)
0.062
(1.6)
TYP
General Description
The KE Series amplifiers are designed to take full
advantage of Fairchilds high-performance DC-
coupled operational amplifiers in an easy-to-use,
encased form. This format makes the KE Series
amplifiers an excellent choice for use on the bench,
in a test station, or in other environments needing
both high performance and ease of use.
The op amp-based KE Series amplifiers provide a
wide selection of features as well as the ability to
customize parameters such as voltage gain and out-
put impedance to the application.
KE231 .... designed for low-gain applications
(Av = ±1 to ±5)
KE220 .... high bandwidth (-3dB BW of 190MHz),
lower output current (50mA)
KE200 .... general purpose (-3dB BW of 95MHz)
KE103 .... high output current (200mA)
The KE104 is an encased version of the KH104AI, a DC
to 1.1GHz linear amplifier with a fixed gain of 14dB and
50input and output impedances. These features, coupled
with excellent distortion and VSWR characteristics,
make the KE104 ideal for applications in wideband
analog and high-speed digital communications,
radar, and fiber optics transmitters and receivers.
KE104 .... DC to 1.1GHz, fixed 14dB gain, low distortion.
Ordering Information
KE104
Since gain and input and output impedances are fixed
on the KE104, simply designate the connector type
required by: KE104-BNC or KE104-SMA.
KE103, KE200, KE220, and KE231
Due to the flexibility possible with these amplifiers,
the user must specify several parameters when ordering:
The full part number is KEnnn-p-con-Zi-Zo-Av,
nnn: specify 103, 200, 220, or 231
p: specify N (non-inverting) or I (inverting)
con: specify BNC or SMA connectors or NDC for no case
Zi: specify input impedance in ohms
Zo: specify output impedance in ohms
Av: specify voltage gain with output unterminated
(ie: Zload = ) (see example)
Select Zi, Zo, and Av within the following constraints:
Parameter KE103
Av ±1/±40
max Zin
inverting
1500
Av
non-inverting 10k
min Zout
0
KE200
±1/±50
2000
Av
10k
0
KE220
±1/±50
1500
Av
10k
0
KE231
±1/±5
250
Av
10k
0
Example:
KE200-N-BNC-75-50-20 means a KE200 with a non-inverting
gain, BNC connectors, 75W input impedance, 50W output
impedance, and a voltage gain of 20V/V (unterminated
output). (When driving a realistic load, the actual gain is
reduced by the factor Zload/(Zload + Zo) due to the resistive
divider action of the output impedance, Zo, and the load
connected to the amplifier, Zload. The unterminated voltage
gain, Av, should be selected with this in mind.)
REV. 1A February 2001


KE103 데이터시트, 핀배열, 회로
DATA SHEET
KE Series
Typical Specifications (Note1)
Absolute Maximum Ratings
Model
-3dB
BW
(MHz)
General Purpose
KE200
95
Wide bandwidth
KE220
190
High Output Current
KE103
150
Low Gain
KE231
165
Ultra-wide Bandwidth
KE104
1100
Settling Slew
Vout, Iout
VCC
Power
Derate
Output
Input
Time
Rate
(V, mA)
(V)
Dissipation Above 25°C Current
Voltage
(ns, %) (V/µs) (Note 2)
(W @ 25°C)
mW/°C
(mA)
(V)
To
(°C)
TS
(°C)
18, 0.1
8, 0.1
10, 0.4
12, 0.1
1.2, 0.8
4000
7000
6000
3000
4500
±12, ±100
±12, ±50
±11, ±200
±11, ±100
±1.6, ±40
5-17
5-17
9-17
5-17
9-17
1.8
1.5
2.0
1.8
1.8
10 100 Note 3 -25 to +85 -65 to +150
5 50 Note 3 -25 to +85 -65 to +150
10 200 Note 3/4 -25 to +85 -65 to +150
10 100 Note 3 -25 to +85 -65 to +150
N/A
40
±0.5
-25 to +85 -65 to +150
Notes
1. Nominal configuration
Vcc: ±15V KE103, KE104, KE200, KE220, KE231
Load: 100KE103, KE231
200KE200, KE220
50KE104
Av: +20 KE103, KE200, KE220
+2 KE231
2. When the amplifier is configured with an output impedance (Zout > 0, the maximum output
voltage swing (at the load) is reduced by the factor Zload/(Zload + Zout). See the example on page 1.
3.
These amplifiers must be kept out of saturation; in other words, the output voltage
(determined by Vin and Av.) must be kept away from the supply voltage.
Vin
<
VCC 2.5
Av
4. In the non-inverting configuration, the input voltage to the KE103 must not exceed ±5V.
Discussion
The performance specified above is that typically seen for a
nominally-configured KE Series amplifier; performance for different
configurations can be determined using the graphs. Other parameters
not shown can be approximated by referring to the individual hybrid
data sheets.
Relative Bandwidth vs. Gain
At the nominal gain setting of +20 (+2 for the KE231),the amplifiers will
typically provide 100% of the specified bandwidth; higher gains will
reduce the bandwidth somewhat as shown in the graph.
Relative Bandwidth vs. Load
Listed under the typical specifications table are the nominal loads at
which the amplifiers will typically provide 100% of the specified band-
width. Heavier loads decrease the bandwidth as the plot indicates. (The
total load on the amplifier is the sum of the output impedance, Zo, and
the load connected external to the amplifier, Zload).
Relative Bandwidth vs. VCC
All of the KE Series amplifiers are designed to operate on ±15V
supplies. The user may elect, however, to use lower supplies but at
some sacrifice in performance as shown in the plot.
Relative Bandwidth vs. Gain
1.1
1.0
0.9
KE231
0.8
KE200
KE103
0.7
0.6
1
2
KE220
5 10
|Gain|
20
50
Relative Bandwidth vs. Load
1.1
KE103
1.0
KE200
KE220
0.9
0.8
KE231
0.7
0.6
50
100 200
500
Load Resistance ()
1000
Relative Bandwidth vs. VCC
1.2
1.0
KE200
KE220
0.8
KE103
0.6
KE231
0.4
0.2
5 7 9 11 13 15
VCC (V)
DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICES TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD
DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT
RIGHTS, NOR THE RIGHTS OF OTHERS.
LIFE SUPPORT POLICY
FAIRCHILDS PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT
OF FAIRCHILD SEMICONDUCTOR CORPORATION. As used herein:
1. Life support devices or systems are devices or systems which, (a) are intended for
surgical implant into the body, or (b) support or sustain life, and (c) whose failure to
perform when properly used in accordance with instructions for use provided in the
labeling, can be reasonably expected to result in a significant injury of the user.
2. A critical component in any component of a life support device or system whose
failure to perform can be reasonably expected to cause the failure of the life
support device or system, or to affect its safety or effectiveness.
www.fairchildsemi.com
© 2001 Fairchild Semiconductor Corporation




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