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THS4552 Datasheet, PDF (36/71 Pages) Texas Instruments – Dual-Channel, Low-Noise, Precision, 150-MHz, Fully Differential Amplifier
THS4552
SBOS831 – DECEMBER 2016
www.ti.com
ERROR TERM
Input VIO
Input IOS
Input IBCM
Input IBCM
VOCM input
Table 2. Worst-Case Output VOD Error Band
25°C MAX VALUE
GAIN TO VOD
OUTPUT ERROR
(mV)
GAIN COMMENT
±0.175 mV
1.9777
±0.346
Average noise gain
±50 nA
1000
±0.05
Feedback resistor
1.5 µA
20 Ω
±0.03
Feedback resistor mismatch
1.5 µA
1 kΩ × 0.00268
±0.004
Converted to differential by gain mismatch
2.5 V
0.00268
Total
±12.5
±12.93
VOCM to differential by gain mismatch
The 0.00268 conversion gain for the gain ratio mismatch is the worst-case ratio starting from the initially higher
G1 value resulting from the standard value constraint and using a ±1% tolerance on the RF and RG elements of
the ratio. Mismatch is not symmetric but is shown that way in the analysis.
Normally, the expected drift in the output VOD is of more interest than an initial error band. Table 3 shows these
terms for the RTW package and the summed results by adding all terms independently to obtain a worst-case
drift.
ERROR TERM
Input VIO
Input IOS
Input IBCM
Input IBCM
VOCM input
Table 3. Worst-Case Output VOD Drift Band
MAX VALUE
GAIN TO VOD
OUTPUT ERROR
(µV/°C)
GAIN COMMENT
±1.8 µV/°C
1.9777
±3.56
Average noise gain
±120 pA/°C
1000
±0.12
Feedback resistor
5.0 nA/°C
20 Ω
±0.10
Feedback resistor mismatch
5.0 nA/°C
1 kΩ × 0.00268
±0.014
Converted to differential by gain mismatch
±10 µV/°C
0.00268
Total
±0.027
±3.82
VOCM to differential by gain mismatch
In Table 3, the input offset voltage drift dominates the output drift. For the last term, the drift for the VOCM path is
just for the internal offset drift of the common-mode path with a driven input. Any added external drift on the
source of the VOCM input must also be considered. This type of calculation can be repeated for the exact
application circuit considering each of these terms in the context of a specific design.
The absolute accuracy and drift for the THS4552 are exceptionally good. Mismatched resistor feedback ratios
combined with a high drift in the VOCM control input can actually dominate the output VOD drift. Where the output
differential precision is more important than the input matching accuracy, consider matching the networks on the
two sides of the input to obtain improved nominal G1 to G2 match. The gains for the input bias current error
terms are relatively low when using the 1-kΩ feedback values. Higher RF values provide the input-current-related
drift terms more gain.
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