參數(shù)資料
型號(hào): OP493
廠商: Analog Devices, Inc.
英文描述: Precision, Micropower Operational Amplifiers(精密的微功率四運(yùn)放)
中文描述: 精密,微功耗運(yùn)算放大器(精密的微功率四運(yùn)放)
文件頁數(shù): 10/16頁
文件大?。?/td> 273K
代理商: OP493
REV. A
–10–
OP193/OP293/OP493
Driving Capacitive Loads
OP193 family amplifiers are unconditionally stable with capaci-
tive loads less than 200 pF. However, the small signal, unity-
gain overshoot will improve if a resistive load is added. For
example, transient overshoot is 20% when driving a 1000pF/
10 k
load. When driving large capacitive loads in unity-gain
configurations, an in-the-loop compensation technique is rec-
ommended as illustrated in Figure 28.
Input Overvoltage Protection
As previously mentioned, the OP193 family of op amps use a
PNP input stage with protection resistors in series with the
inverting and noninverting inputs. T he high breakdown of the
PNP transistors, coupled with the protection resistors, provides
a large amount of input protection from over voltage conditions.
T he inputs can therefore be taken 20 V beyond either supply
without damaging the amplifier.
Output Phase Reversal—OP193
T he OP193’s input PNP collector-base junction can be forward-
biased if the inputs are brought more than one diode drop
(0.7 V) below ground. When this happens to the noninverting
input, Q4 of the cascode stage turns on and the output goes
high. If the positive input signal can go below ground, phase
reversal can be prevented by clamping the input to the negative
supply (i.e., GND) with a diode. T he reverse leakage of the
diode will, of course, add to the input bias current of the ampli-
fier. If input bias current is not critical, a 1N914 will add less
than 10 nA of leakage. However, its leakage current will double
for every 10
°
C increase in ambient temperature. For critical
applications, the collector-base junction of a 2N3906 transistor
will only add about 10 pA of additional bias current. T o limit
the current through the diode under fault conditions, a 1 k
resistor is recommended in series with the input. (T he OP193’s
internal current limiting resistors will not protect the external
diode).
Output Phase Reversal—OP293 and OP493
T he OP293 and OP493 include lateral PNP transistors Q7 and
Q8 to protect against phase reversal. If an input is brought more
than one diode drop (
0.7 V) below ground, Q7 and Q8 com-
bine to level shift the entire cascode stage, including the bias to
Q3 and Q4, simultaneously. In this case Q4 will not saturate
and the output remains low.
T he OP293 and OP493 do not exhibit output phase reversal for
inputs up to –5 V below V– at +25
°
C. T he phase reversal limit
at +125
°
C is about –3 V. If the inputs can be driven below these
levels, an external clamp diode, as discussed in the previous sec-
tion, should be added.
Battery Powered Applications
OP193 series op amps can be operated on a minimum supply
voltage of +1.7 V, and draw only 13
μ
A of supply current per
amplifier from a 2.0 V supply. In many battery-powered cir-
cuits, OP193 devices can be continuously operated for thou-
sands of hours before requiring battery replacement, thus
reducing equipment downtime and operating cost.
High performance portable equipment and instruments fre-
quently use lithium cells because of their long shelf life, light
weight, and high energy density relative to older primary cells.
Most lithium cells have a nominal output voltage of 3 V and are
noted for a flat discharge characteristic. T he low supply voltage
requirement of the OP193, combined with the flat discharge
characteristic of the lithium cell, indicates that the OP193 can
be operated over the entire useful life of the cell. Figure 25
shows the typical discharge characteristic of a 1 AH lithium cell
powering the OP193, OP293, and OP493, with each amplifier,
in turn, driving 2.1 Volts into a 100 k
load.
L
C
5000
0
2
1
HOURS
3
1000
7000
2000
3000
4000
6000
4
0
OP493
OP293
OP193
Figure 25. Lithium Sulfur Dioxide Cell Discharge Charac-
teristic with OP193 Family and 100 k
Loads
Input Offset Voltage Nulling
T he OP193 provides two offset nulling terminals that can be
used to adjust the OP193’s internal V
OS
. In general, operational
amplifier terminals should never be used to adjust system offset
voltages. T he offset null circuit of Figure 26 provides about
±
7 mV of offset adjustment range. A 100 k
resistor placed in
series with the wiper arm of the offset null potentiometer, as
shown in Figure 27, reduces the offset adjustment range to
400
μ
V and is recommended for applications requiring high null
resolution. Offset nulling does not adversely affect T CV
OS
per-
formance, providing that the trimming potentiometer tempera-
ture coefficient does not exceed
±
100 ppm/
°
C.
6
5
7
4
1
2
3
V–
V+
OP193
100k
Figure 26. Offset Nulling Circuit
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相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
OP4930003SR 制造商:Analog Devices 功能描述:
OP493EP 制造商:Rochester Electronics LLC 功能描述:MICROPOWER RAIL/RAIL - Bulk
OP493ES 制造商:AD 制造商全稱:Analog Devices 功能描述:Precision, Micropower Operational Amplifiers
OP493ES-REEL 制造商:AD 制造商全稱:Analog Devices 功能描述:Precision, Micropower Operational Amplifiers
OP493FP 制造商:Rochester Electronics LLC 功能描述:MICROPOWER RAIL/RAIL - Bulk 制造商:Analog Devices 功能描述:
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