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Improved Howland Current Pump Stability
Tim Green Senior Analog Applications Engineers Precision Analog Linear Applications July 19, 2013
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Improved Howland Current Pump IL Accuracy Circuit
RT allows for trim to optimum ZOUT and improved DC Accuracy Ideal Op Amp
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Improved Howland Current Pump V-I DC Accuracy Calculations
1% Resistors (w/RT=0) could yield only 9% Accuracy at T=25°C Still useful for V-I control in Motors/Valves V-Torque Control Outer position feedback adjusts V for final position
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Improved Howland Current Pump Simplified Equation
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Improved Howland AC Analysis
RI RF Op Amp sees differential [(-IN) – (+IN)] feedback b = b- - b+ (Must be positive number else oscillation!)
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Improved Howland AC Analysis
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Improved Howland 1/b Plot - Full Load
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Improved Howland 1/b Calculation No Load & Full Load
IL RO fz fp DC 1/b Hi-f 1/b No Load 0A 6.29W 75.8Hz 31.83kHz 17.62dB 77.17dB Full Load 1A 0.308W 44.08Hz 19.45dB 77.15dB Change in RO from No Load to Full Load has no significant impact on the 1/b Plot
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Improved Howland Tina Transient Analysis Circuit
RI RF
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Improved Howland Tina Transient Analysis Results
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Improved Howland Modified 1/b for Stability
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Improved Howland AC Analysis Final Design for Stability
RI RF
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Improved Howland AC Analysis 1/b - Final Design for Stability
fcl
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Improved Howland AC Analysis Loop Gain - Final Design for Stability
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Improved Howland AC Transfer Analysis IL/VIN - Final Design for Stability
RI RF
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Improved Howland AC Transfer Analysis IL/VIN - Final Design for Stability
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Improved Howland Transient Analysis IL/VIN - Final Design for Stability
RI RF
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Improved Howland Transient Analysis IL/VIN - Final Design for Stability
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