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PDF OPA381AIDGKT Data sheet ( Hoja de datos )

Número de pieza OPA381AIDGKT
Descripción Precision/ Low Power/ 18MHz Transimpedance Amplifier
Fabricantes Burr-Brown Corporation 
Logotipo Burr-Brown Corporation Logotipo



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OPA381
OPA2381
SBOS313B − AUGUST 2004 − REVISED NOVEMBER 2004
Precision, Low Power, 18MHz
Transimpedance Amplifier
FEATURES
D OVER 250kHz TRANSIMPEDANCE
BANDWIDTH
D DYNAMIC RANGE: 5 Decades
D EXCELLENT LONG-TERM STABILITY
D LOW VOLTAGE NOISE: 10nV/Hz
D BIAS CURRENT: 3pA
D OFFSET VOLTAGE: 25µV (max)
D OFFSET DRIFT: 0.1µV/°C (max)
D GAIN BANDWIDTH: 18MHz
D QUIESCENT CURRENT: 800µA
D FAST OVERLOAD RECOVERY
D SUPPLY RANGE: 2.7V to 5.5V
D SINGLE AND DUAL VERSIONS
D MicroPACKAGE: DFN-8, MSOP-8
APPLICATIONS
D PRECISION I/V CONVERSION
D PHOTODIODE MONITORING
D OPTICAL AMPLIFIERS
D CAT-SCANNER FRONT-END
D PHOTO LAB EQUIPMENT
RF
+5V
7
2
OPA381
VOUT
6 (0V to 4.4V)
Photodiode
CDIODE
1M
3
65pF
100k
75pF
RP
(Optional
Pulldown
Resistor)
5V
4
DESCRIPTION
The OPA381 family of transimpedance amplifiers provides
18MHz of Gain Bandwidth (GBW), with extremely high
precision, excellent long-term stability, and very low 1/f noise.
The OPA381 features an offset voltage of 25µV (max), offset
drift of 0.1µV/°C (max), and bias current of 3pA. The OPA381
far exceeds the offset, drift, and noise performance that
conventional JFET op amps provide.
The signal bandwidth of a transimpedance amplifier depends
largely on the GBW of the amplifier and the parasitic
capacitance of the photodiode, as well as the feedback
resistor. The 18MHz GBW of the OPA381 enables a trans-
impedance bandwidth of > 250kHz in most configurations.
The OPA381 is ideally suited for fast control loops for power
level measurement on an optical fiber.
As a result of the high precision and low-noise characteristics
of the OPA381, a dynamic range of 5 decades can be
achieved. This capability allows the measurement of signal
currents on the order of 10nA, and up to 1mA in a single I/V
conversion stage. In contrast to logarithmic amplifiers, the
OPA381 provides very wide bandwidth throughout the full
dynamic range. By using an external pulldown resistor to
–5V, the output voltage range can be extended to include 0V.
The OPA381 and OPA2381 are both available in MSOP-8
and DFN-8 (3mm x 3mm) packages. They are specified
from –40°C to +125°C.
OPA381 RELATED DEVICES
PRODUCT FEATURES
OPA380
90MHz GBW, 2.7V to 5.5V Supply
Transimpedance Amplifier
OPA132
16MHz GBW, Precision FET Op Amp ±15V
OPA300
150MHz GBW, Low-Noise, 2.7V to 5.5V Supply
OPA335
OPA350
OPA354
10µV VOS, Zero-Drift, 2.5V to 5V Supply
500µV VOS, 38MHz, 2.5V to 5V Supply
100MHz GBW CMOS, RRIO, 2.5V to 5V Supply
OPA355
200MHz GBW CMOS, 2.5V to 5V Supply
OPA656/7 230MHz, Precision FET, ±5V
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments
semiconductor products and disclaimers thereto appears at the end of this data sheet.
All trademarks are the property of their respective owners.
PRODUCTION DATA information is current as of publication date. Products
conform to specifications per the terms of Texas Instruments standard warranty.
Production processing does not necessarily include testing of all parameters.
Copyright 2004, Texas Instruments Incorporated
www.ti.com

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OPA381AIDGKT pdf
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OPA381
OPA2381
SBOS313B − AUGUST 2004 − REVISED NOVEMBER 2004
TYPICAL CHARACTERISTICS: VS = +2.7V to +5.5V (continued)
All specifications at TA = +25°C, RL = 10kconnected to VS/2, and VOUT = VS/2, unless otherwise noted.
50
40
30
20
10
0
10
20
30
40
50
0
INPUT BIAS CURRENT
vs COMMON−MODE VOLTAGE
IB
+IB
0.5 1.0 1.5 2.0 2.5 3.0 3.5
Common−Mode Voltage (V)
(V+)
OUTPUT VOLTAGE SWING vs OUTPUT CURRENT
(VS = 5.5V)
(V+) 1
(V+) 2
(V) + 2
(V) + 1
+125_ C
+25°C
40_ C
(V)
0
5 10 15 20
Output Current (mA)
25
(V+)
(V+) 0.35
(V+) 0.70
(V+) 1.05
(V+) 1.40
(V) + 1.40
(V) + 1.05
(V) + 0.70
(V) + 0.35
(V)
0
OUTPUT VOLTAGE SWING vs OUTPUT CURRENT
(VS = 2.7V)
+125_ C
+25_ C
40_C
5 10 15 20
Output Current (mA)
25
OFFSET VOLTAGE DRIFT
PRODUCTION DISTRIBUTION
Offset Voltage Drift (µV/_C)
OFFSET VOLTAGE PRODUCTION DISTRIBUTION
Offset Voltage (µV)
GAIN BANDWIDTH vs POWER SUPPLY VOLTAGE
20
19
18
17
16
15
14
13
12
2.5
3.0 3.5 4.0
4.5 5.0
Power Supply Voltage (V)
5.5
5

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OPA381AIDGKT arduino
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TRANSIMPEDANCE BANDWIDTH AND
NOISE
Limiting the gain set by RF can decrease the noise
occurring at the output of the transimpedance circuit.
However, all required gain should occur in the
transimpedance stage, since adding gain after the
transimpedance amplifier generally produces poorer
noise performance. The noise spectral density
produced by RF increases with the square-root of RF,
whereas the signal increases linearly. Therefore,
signal-to-noise ratio is improved when all the required
gain is placed in the transimpedance stage.
Total noise increases with increased bandwidth. Limit
the circuit bandwidth to only that required. Use a
capacitor, CF, across the feedback resistor, RF, to limit
bandwidth (even if not required for stability), if total
output noise is a concern.
Figure 6a shows the transimpedance circuit without any
feedback capacitor. The resulting transimpedance gain
of this circuit is shown in Figure 7. The –3dB point is
approximately 3MHz. Adding a 16pF feedback
capacitor (Figure 6b) will limit the bandwidth and result
in a –3dB point at approximately 200kHz (seen in
Figure 7). Output noise will be further reduced by
adding a filter (RFILTER and CFILTER) to create a second
pole (Figure 6c). This second pole is placed within the
feedback loop to maintain the amplifier’s low output
impedance. (If the pole was placed outside the
feedback loop, an additional buffer would be required
and would inadvertently increase noise and dc error).
Using RDIODE to represent the equivalent diode
resistance, and CTOT for equivalent diode capacitance
plus OPA381 input capacitance, the noise zero, fZ, is
calculated by:
fZ
+
ǒRDIODE ) RFǓ
2pRDIODERFǒCTOT ) CFǓ
(3)
OPA381
OPA2381
SBOS313B − AUGUST 2004 − REVISED NOVEMBER 2004
(a) RF = 50k
CSTRAY = 0.2pF
λ
OPA381
VBIAS
VOUT
(b) RF = 50k
CSTRAY = 0.2pF
CF = 16pF
λ
OPA381
VOUT
VBIAS
(c) RF = 50k
CSTRAY = 0.2pF
CF = 22pF
RFILTER
λ = 102k
OPA381
VOUT
CFILTER
= 3.9nF
VBIAS
Figure 6. Transimpedance Circuit Configurations
with Varying Total and Integrated Noise Gain
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