参数资料
| 型号: | HFA1412IPZ |
| 厂商: | Intersil |
| 文件页数: | 9/13页 |
| 文件大小: | 0K |
| 描述: | IC BUFFER QUAD 350MHZ LP 14-PDIP |
| 标准包装: | 250 |
| 放大器类型: | 缓冲器 |
| 电路数: | 4 |
| 转换速率: | 1700 V/µs |
| -3db带宽: | 350MHz |
| 电流 - 输入偏压: | 1µA |
| 电压 - 输入偏移: | 2000µV |
| 电流 - 电源: | 5.9mA |
| 电流 - 输出 / 通道: | 55mA |
| 电压 - 电源,单路/双路(±): | 9 V ~ 11 V,±4.5 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 14-DIP(0.300",7.62mm) |
| 供应商设备封装: | 14-PDIP |
| 包装: | 管件 |
5
FN4152.4
January 23, 2006
Application Information
HFA1412 Advantages
The HFA1412 features a novel design which allows the user
to select from three closed loop gains, without any external
components. The result is a more flexible product, fewer part
types in inventory, and more efficient use of board space.
Implementing a quad, gain of 2, cable driver with this IC
eliminates the eight gain setting resistors, which frees up
board space for termination resistors.
Like most newer high performance amplifiers, the HFA1412
is a current feedback amplifier (CFA). CFAs offer high
bandwidth and slew rate at low supply currents, but can be
difficult to use because of their sensitivity to feedback
capacitance and parasitics on the inverting input (summing
node). The HFA1412 eliminates these concerns by bringing
the gain setting resistors on-chip. This yields the optimum
placement and value of the feedback resistor, while
minimizing feedback and summing node parasitics. Because
there is no access to the summing node, the PCB parasitics
do not impact performance at gains of +2 or -1 (see “Unity
Gain Considerations” for discussion of parasitic impact on
unity gain performance).
The HFA1412’s closed loop gain implementation provides
better gain accuracy, lower offset and output impedance,
and better distortion compared with open loop buffers.
Closed Loop Gain Selection
This “buffer” operates in closed loop gains of -1, +1, or +2, with
gain selection accomplished via connections to the
±inputs.
Applying the input signal to +IN and floating -IN selects a gain
of +1 (see next section for layout caveats), while grounding -IN
selects a gain of +2. A gain of -1 is obtained by applying the
input signal to -IN with +IN grounded through a 50
resistor.
The table below summarizes these connections:
Unity Gain Considerations
Unity gain selection is accomplished by floating the -Input of
the HFA1412. Anything that tends to short the -Input to GND,
such as stray capacitance at high frequencies, will cause the
amplifier gain to increase toward a gain of +2. The result is
excessive high frequency peaking, and possible instability.
Even the minimal amount of capacitance associated with
attaching the -Input lead to the PCB results in approximately
6dB of gain peaking. At a minimum this requires due care to
ensure the minimum capacitance at the -Input connection.
Table 1 lists five alternate methods for configuring the
HFA1412 as a unity gain buffer, and the corresponding
performance. The implementations vary in complexity and
involve performance trade-offs. The easiest approach to
implement is simply shorting the two input pins together, and
applying the input signal to this common node. The amplifier
bandwidth decreases from 550MHz to 370MHz, but
excellent gain flatness is the benefit. A drawback to this
approach is that the amplifier input noise voltage and input
offset voltage terms see a gain of +2, resulting in higher
noise and output offset voltages. Alternately, a 100pF
capacitor between the inputs shorts them only at high
frequencies, which prevents the increased output offset
voltage but delivers less gain flatness.
Another straightforward approach is to add a 620
resistor
in series with the amplifier’s positive input. This resistor and
the HFA1412 input capacitance form a low pass filter which
rolls off the signal bandwidth before gain peaking occurs.
This configuration was employed to obtain the data sheet AC
and transient parameters for a gain of +1.
Pulse Overshoot
The HFA1412 utilizes a quasi-complementary output stage
to achieve high output current while minimizing quiescent
supply current. In this approach, a composite device
replaces the traditional PNP pulldown transistor. The
composite device switches modes after crossing 0V,
resulting in added distortion for signals swinging below
ground, and an increased overshoot on the negative portion
of the output waveform (see Figure 5, Figure 7, and Figure 9).
This overshoot isn’t present for small bipolar signals (see
Figure 4, Figure 6, and Figure 8) or large positive signals.
Figure 28 through Figure 31 illustrate the amplifier’s
overshoot dependency on input transition time, and signal
polarity.
GAIN
(ACL)
CONNECTIONS
+INPUT
-INPUT
-1
50
to GND
Input
+1
Input
NC (Floating)
+2
Input
GND
TABLE 1. UNITY GAIN PERFORMANCE FOR VARIOUS IMPLEMENTATIONS
APPROACH
PEAKING (dB)
BW (MHz)
SR (V/
s)
±0.1dB GAIN FLATNESS (MHz)
Remove -IN Pin
5.0
550
1300
18
+RS = 620
1.0
230
1000
25
+RS = 620 and Remove -IN Pin
0.7
225
1000
28
Short +IN to -IN (e.g., Pins 2 and 3)
0.1
370
500
170
100pF Capacitor Between +IN and -IN
0.3
380
550
130
HFA1412
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