參數(shù)資料
型號: OP177GPZ
廠商: Analog Devices Inc
文件頁數(shù): 16/16頁
文件大?。?/td> 0K
描述: IC OPAMP GP PREC LN 8DIP
產品變化通告: OP07, OP177 Redesign Change 19/Jul/2011
設計資源: AD7266 SAR ADC in DC-Coupled Differential and Single-Ended Appls (CN0039)
DC-Coupled, Single-Ended-to-Differential Conversion Using AD8138 and AD7352 (CN0040)
DC-Coupled, Single-Ended-to-Differential Conversion Using AD8138 and AD7356 (CN0041)
AD7265 in Differential and Single-Ended Configurations Using AD8022 (CN0048)
Unipolar, Precision DC Digital-to-Analog Conversion using AD5450/1/2/3 8-14-Bit DACs (CN0052)
DC-Coupled, Single-Ended-to-Differential Conversion Using AD8138 and AD7357 (CN0061)
標準包裝: 50
放大器類型: 通用
電路數(shù): 1
轉換速率: 0.3 V/µs
增益帶寬積: 600kHz
電流 - 輸入偏壓: 1.2nA
電壓 - 輸入偏移: 20µV
電流 - 電源: 1.6mA
電壓 - 電源,單路/雙路(±): 6 V ~ 36 V,±3 V ~ 18 V
工作溫度: -40°C ~ 85°C
安裝類型: 通孔
封裝/外殼: 8-DIP(0.300",7.62mm)
供應商設備封裝: 8-PDIP
包裝: 管件
產品目錄頁面: 774 (CN2011-ZH PDF)
Data Sheet
OP177
Rev. G | Page 9 of 16
APPLICATIONS INFORMATION
GAIN LINEARITY
The actual open-loop gain of most monolithic op amps varies at
different output voltages. This nonlinearity causes errors in high
closed-loop gain circuits.
It is important to know that the manufacturer’s AVO specifica-
tion is only a part of the solution because all automated testers
use endpoint testing and, therefore, show only the average gain.
For example, Figure 24 shows a typical precision op amp with a
respectable open-loop gain of 650 V/mV. However, the gain is
not constant through the output voltage range, causing non-
linear errors. An ideal op amp shows a horizontal scope trace.
Figure 25 shows the OP177 output gain linearity trace with its
truly impressive average AVO of 12,000 V/mV. The output trace
is virtually horizontal at all points, assuring extremely high gain
accuracy. Analog Devices also performs additional testing to
ensure consistent high open-loop gain at various output
voltages. Figure 26 is a simple open-loop gain test circuit.
AVO ≥ 650V/mV
RL = 2k
VX
–10V
0V
+10V
00289-
023
Figure 24. Typical Precision Op Amp
VY
VX
–10V
0V
+10V
00289-
024
AVO ≥ 12000V/mV
RL = 2k
Figure 25. Output Gain Linearity Trace
+
VY
VX
10k
1M
10
RL
VIN = ±10V
OP177
00289-
025
Figure 26. Open-Loop Gain Linearity Test Circuit
THERMOCOUPLE AMPLIFIER WITH COLD-
JUNCTION COMPENSATION
An example of a precision circuit is a thermocouple amplifier
that must accurately amplify very low level signals without
introducing linearity and offset errors to the circuit. In this
circuit, an S-type thermocouple with a Seebeck coefficient of
10.3 μV/°C produces 10.3 mV of output voltage at a temperature
of 1000°C. The amplifier gain is set at 973.16, thus, it produces
an output voltage of 10.024 V. Extended temperature ranges
beyond 1500°C are accomplished by reducing the amplifier
gain. The circuit uses a low cost diode to sense the temperature
at the terminating junctions and, in turn, compensates for any
ambient temperature change. The OP177, with its high open-
loop gain plus low offset voltage and drift, combines to yield a
precise temperature sensing circuit. Circuit values for other
thermocouple types are listed in Table 5.
Table 5.
Thermocouple
Type
Seebeck
Coefficient
R1
R2
R7
R9
K
39.2 μV/°C
110
5.76 k
102 k
269 k
J
50.2 μV/°C
100
4.02 k
80.6 k
200 k
S
10.3 μV/°C
100
20.5 k
392 k
1.07 M
VOUT
–15V
10F
0.1F
+15V
10F
0.1F
R4
50
1%
R5
100
(ZERO
ADJUST-
MENT)
ANALOG
GROUND
ANALOG
GROUND
10F
R8
1.0k
0.05%
+
10F
COPPER
ISOTHERMAL
BLOCK
COLD-JUNCTION
COMPENSATION
REF01
2.2F
+
+15V
6
4
2
10.000V
+
TYPES
ISOTHERMAL
COLD-
JUNCTIONS
+
OP177
R1
100
1%
R2
20.5k
1%
R3
47k
1%
R7
392k
1%
R9
1.07M
0.05%
00289-
026
Figure 27. Thermocouple Amplifier with Cold Junction Compensation
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