參數(shù)資料
型號: KH231
廠商: Fairchild Semiconductor Corporation
英文描述: Fast Settling, Wideband Buffer/Amplifier (Av = 【1 to 【5)
中文描述: 快速沉降,寬帶緩沖器/放大器(馬路\u003d【1至【5)
文件頁數(shù): 4/6頁
文件大?。?/td> 106K
代理商: KH231
DATA SHEET
KH231
4
REV. 1A February 2001
Operation
The KH231 Buffer/Amplifier is based on the current feed-
back op amp topology, a design that uses current feed-
back instead of the usual voltage feedback.
The use of the KH231 is basically the same as that of the
conventional op amp (see Figures 1 and 2). Since the
device is designed specifically for low gain applications,
the best performance is obtained when the circuit is used
at gains between ±1 and ±5. Additionally, performance is
optimum when a 250
feedback resistor is used.
Figure 1: Recommended non-inverting gain circuit
Figure 2: Recommended inverting gain circuit
Layout Considerations
To assure optimum performance the user should follow
good layout practices which minimize the unwanted
coupling of signals between nodes. During initial bread-
boarding of the circuit use direct point to point wiring,
keeping the lead lengths to less than 0.25
. The use of
solid, unbroken ground plane is helpful. Avoid wire-wrap
type pc boards and methods. Sockets with small, short
pin receptacles may be used with minimal performance
degradation although their use is not recommended.
During pc board layout keep all traces short and direct
The resistive body of R
g
should be as close as possible
to pin 5 to minimize capacitance at that point. For the
same reason, remove ground plane from the vicinity of
pins 5 and 6. In other areas, use as much ground plane
as possible on one side of the board. It is especially
important to provide a ground return path for current from
the load resistor to the power supply bypass capacitors.
Ceramic capacitors of 0.01 to 0.1
μ
f (with short leads)
should be less than 0.15 inches from pins 1 and 9.
Larger tantalum capacitors should be placed within one
inch of these pins. V
CC
connections to pins 10 and 12
can be made directly from pins 9 and 1, but better supply
rejection and settling time are obtained if they are
separately bypassed as in figures 1 and 2. To prevent
signal distortion caused by reflections from impedance
mismatches, use terminated microstrip or coaxial cable
when the signal must traverse more than a few inches.
Since the pc board forms such an important part of the
circuit, much time can be saved if prototype boards of any
high frequency sections are built and tested early in the
design phase.
Evaluation boards designed for either
inverting or non-inverting gains are available.
Distortion and Noise
The graphs of intercept point, I
2
and I
3
, versus
frequency on the preceding page make it easy to predict
the distortion at any frequency given the output voltage of
the KH231. First, convert the output voltage (V
o
) to V
rms
= (V
pp
/2
2) and then to P = [(10log
10
(20V
rms
power output in dBm. At the frequency of interest, its 2nd
harmonic will be S
2
= (I
2
-P)dB below the level of P. Its
third harmonic will be S
3
= 2(I
3
- P)dB below P, as will the
two-tone third order intermodulation products. These
approximations are useful for P < -1dB compression levels.
2
)] to get the
Approximate noise figure can be determined for the
KH231 using the equivalent input noise graph on the
preceding page. The following equation can be used to
determine noise figure (F) in dB.
Where V
n
is the rms noise voltage and i
n
is the rms noise
current. Beyond the breakpoint of the curves (i.e., where
they are flat), broadband noise figure equals spot noise fig-
ure, so
f should equal one (1) and V
n
and i
n
should be
read directly off the graph. Below the breakpoint, the noise
must be integrated and
f set to the appropriate bandwidth.
33
+15V
0.1
3.9
.01
Capactance in
μ
F
1
12
5
3,7
R
100
10
11
33
.01
0.1
3.9
-15V
9
+
KH231
-
V
o
R
f
= 250
6
R
g
V
in
R
i
49.9
A
R
R
v
f
g
=
1+
250
33
+15V
0.1
3.9
.01
Capactance in
μ
F
1
12
5
3,7
R
100
10
11
33
.01
0.1
3.9
-15V
9
+
KH231
-
V
o
R
f
= 250
For Z
in
= 50
, select
R
g
|| R
i
= 50
6
100
V
in
R
i
250
R
g
A
R
R
v
f
g
=
F
10log 1
V
i R
A
4kTR
f
n
2
f2
v2
s
=
+
+
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相關代理商/技術參數(shù)
參數(shù)描述
KH231AI 功能描述:運算放大器 - 運放 BUFFER AMP WIDEBAND 165MHz 100mA 1mV RoHS:否 制造商:STMicroelectronics 通道數(shù)量:4 共模抑制比(最小值):63 dB 輸入補償電壓:1 mV 輸入偏流(最大值):10 pA 工作電源電壓:2.7 V to 5.5 V 安裝風格:SMD/SMT 封裝 / 箱體:QFN-16 轉換速度:0.89 V/us 關閉:No 輸出電流:55 mA 最大工作溫度:+ 125 C 封裝:Reel
KH231AK 功能描述:運算放大器 - 運放 OPAMP, FAST WIDEBAND RoHS:否 制造商:STMicroelectronics 通道數(shù)量:4 共模抑制比(最小值):63 dB 輸入補償電壓:1 mV 輸入偏流(最大值):10 pA 工作電源電壓:2.7 V to 5.5 V 安裝風格:SMD/SMT 封裝 / 箱體:QFN-16 轉換速度:0.89 V/us 關閉:No 輸出電流:55 mA 最大工作溫度:+ 125 C 封裝:Reel
KH231AM 功能描述:運算放大器 - 運放 BUFFER AMP WIDEBAND 165MHz 100mA 1mV RoHS:否 制造商:STMicroelectronics 通道數(shù)量:4 共模抑制比(最小值):63 dB 輸入補償電壓:1 mV 輸入偏流(最大值):10 pA 工作電源電壓:2.7 V to 5.5 V 安裝風格:SMD/SMT 封裝 / 箱體:QFN-16 轉換速度:0.89 V/us 關閉:No 輸出電流:55 mA 最大工作溫度:+ 125 C 封裝:Reel
KH231HXA 制造商:CADEKA 制造商全稱:CADEKA 功能描述:Fast Settling, Wideband Buffer/Amplifier (Av = ±1 to ±5)
KH231HXC 制造商:CADEKA 制造商全稱:CADEKA 功能描述:Fast Settling, Wideband Buffer/Amplifier (Av = ±1 to ±5)
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