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TLC2652C-14D Fiches technique(PDF) 11 Page - Texas Instruments |
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TLC2652C-14D Fiches technique(HTML) 11 Page - Texas Instruments |
11 / 31 page TLC2652, TLC2652A, TLC2652Y Advanced LinCMOS ™ PRECISION CHOPPER-STABILIZED OPERATIONAL AMPLIFIERS SLOS019C – SEPTEMBER 1988 – REVISED FEBRUARY 1999 11 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265 electrical characteristics at VDD± = ±5 V, TA = 25°C (unless otherwise noted) PARAMETER TEST CONDITIONS TLC2652Y UNIT PARAMETER TEST CONDITIONS MIN TYP MAX UNIT VIO Input offset voltage 0.6 3 µV Input offset voltage long-term drift (see Note 4) VIC =0 RS =50 Ω 0.003 0.006 µV/mo IIO Input offset current VIC = 0, RS = 50 Ω 2 pA IIB Input bias current 4 pA –5 VICR Common-mode input voltage range RS = 50 Ω 5 to V ICR gg S 3.1 VOM + Maximum positive peak output voltage swing RL = 10 kΩ, See Note 5 4.7 4.8 V VOM – Maximum negative peak output voltage swing RL = 10 kΩ, See Note 5 – 4.7 – 4.9 V AVD Large-signal differential voltage amplification VO = ± 4 V, RL = 10 kΩ 120 150 dB fch Internal chopping frequency 450 Hz Clamp on-state current RL = 100 kΩ 25 µA Clamp off-state current VO = – 4 V to 4 V 100 pA CMRR Common-mode rejection ratio VO = 0, RS = 50 Ω VIC = VICRmin, 120 140 dB kSVR Supply voltage rejection ratio ( ∆VDD±/∆VIO) VDD ± = ±1.9 V to ±8 V, 120 135 dB kSVR Supply-voltage rejection ratio ( ∆VDD±/∆VIO) RS = 50 Ω VO = 0, 120 135 dB IDD Supply current VO = 0, No load 1.5 2.4 mA NOTES: 4. Typical values are based on the input offset voltage shift observed through 168 hours of operating life test at TA = 150°C extrapolated at TA = 25° using the Arrhenius equation and assuming an activation energy of 0.96 eV. 5. Output clamp is not connected. operating characteristics at VDD± = ±5 V, TA = 25°C PARAMETER TEST CONDITIONS TLC2652Y UNIT PARAMETER TEST CONDITIONS MIN TYP MAX UNIT SR + Positive slew rate at unity gain VO = ± 2.3 V, RL = 10 kΩ, 2 2.8 V/ µs SR – Negative slew rate at unity gain O , CL = 100 pF L , 2.3 3.1 V/ µs V Equivalent input noise voltage f = 10 Hz 94 nV/ √Hz Vn Equivalent input noise voltage f = 1 kHz 23 nV/ √Hz VN(PP) Peak to peak equivalent input noise voltage f = 0 to 1 Hz 0.8 µV VN(PP) Peak-to-peak equivalent input noise voltage f = 0 to 10 Hz 2.8 µV In Equivalent input noise current f = 1 kHz pA/ √Hz Gain-bandwidth product f = 10 kHz, CL = 100 pF RL = 10 kΩ, 1.9 MHz φm Phase margin at unity gain RL = 10 kΩ, CL = 100 pF 48 ° |
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