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Quiz: Driving a SAR ADC with a Fully Differential Amplifier TIPL 4103 TI Precision Labs – ADCs Created by Art Kay.

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Presentation on theme: "Quiz: Driving a SAR ADC with a Fully Differential Amplifier TIPL 4103 TI Precision Labs – ADCs Created by Art Kay."— Presentation transcript:

1 Quiz: Driving a SAR ADC with a Fully Differential Amplifier TIPL 4103 TI Precision Labs – ADCs
Created by Art Kay

2 Quiz: Linear Range ADC + FDA
Design a FDA circuit topology to translate a single ended 0V to 1V, to 0V to 4V. Use THS4551, OPA320, and ADS9110 with a 4.096V reference. Will the output be linear over the full 0V to 1V signal range? Design a FDA circuit topology to translate a single ended -0.1V to +0.1V, to 0V to 2.5V. Use THS4551, OPA320, and ADS9110 with a 2.5V reference. Will the output be linear over the full 0V to 1V signal range? (T/F) Assume the input signal applied to an FDA has both even and odd order harmonics. The the FDA will cancel the even order harmonics. (T/F) The Vocm pin can be directly connected to a voltage divider to set it’s output common mode.

3 Solutions

4 Quiz: Linear Range ADC + FDA
Design a FDA circuit topology to translate a single ended 0V to 1V, to 0V to 4V. Use THS4551, OPA320, and ADS9110 with a 4.096V reference. Will the output be linear over the full 0V to 1V signal range? Analog engineer’s calculator used to select U2 Feedback resistors

5 Quiz: Linear Range ADC + FDA
Problem 1: continued. PARAMETER OPA320 TEST CONDITION MIN TYP MAX UNIT INPUT VOLTAGE Common-mode voltage range Vcm (V-) - 0.1 (V+)+0.1 V OUTPUT Voltage swing from both rails VO RL = 10kΩ 10 20 mV RL = 2kΩ 25 35 OPEN-LOOP GAIN Open-loop gain AOL 0.1 < Vo < (V+)-0.1V, RL = 10kΩ 114 132 dB 0.2 < Vo < (V+)-0.2V, RL = 2kΩ 108 123 Amplifier input range -0.1V < Vcm < 5.1V Amplifier output range 0.02 < VO < 4.98V Amplifier Linear Range 0.1 < VO < 4.9V Worst Case Range

6 Quiz: Linear Range ADC + FDA
Problem 1: continued. PARAMETER THS4551 MIN TYP MAX UNIT Output voltage low (V-) + 0.2 (V-) V Output voltage high (V+) – 0.23 (V+) – 0.2 Common mode input voltage low (V-) – 0.1 Common mode input voltage high (V+) – 1.2 (V+) – 1.1 input range -0.1V < Vcm < 3.8V output range 0.23 < VO < 4.77V Note: The output swing low on the THS limits the range.

7 Quiz: Linear Range ADC + FDA
Problem 1: continued. Note: One approach to avoiding the output swing limitation is a -0.3V negative supply.

8 Quiz: Linear Range ADC + FDA
Design a FDA circuit topology to translate a single ended -0.1V to +0.1V, to 0V to 2.5V. Use THS4551, OPA320, and ADS9110 with a 2.5V reference. Will the output be linear over the full 0V to 1V signal range? Analog engineer’s calculator used to select U2 Feedback resistors

9 Quiz: Linear Range ADC + FDA
Problem 2: continued. PARAMETER OPA320 TEST CONDITION MIN TYP MAX UNIT INPUT VOLTAGE Common-mode voltage range Vcm (V-) - 0.1 (V+)+0.1 V OUTPUT Voltage swing from both rails VO RL = 10kΩ 10 20 mV RL = 2kΩ 25 35 OPEN-LOOP GAIN Open-loop gain AOL 0.1 < Vo < (V+)-0.1V, RL = 10kΩ 114 132 dB 0.2 < Vo < (V+)-0.2V, RL = 2kΩ 108 123 Amplifier input range -2.6V < Vcm < 2.6V Amplifier output range -2.48 < VO < 2.48V Amplifier Linear Range -2.4 < VO < 2.4V Worst Case Range

10 Quiz: Linear Range ADC + FDA
Problem 2: continued. PARAMETER THS4551 MIN TYP MAX UNIT Output voltage low (V-) + 0.2 (V-) V Output voltage high (V+) – 0.23 (V+) – 0.2 Common mode input voltage low (V-) – 0.1 Common mode input voltage high (V+) – 1.2 (V+) – 1.1 input range -0.1V < Vcm < 3.8V output range 0.23 < VO < 4.77V

11 Quiz: Linear Range ADC + FDA
Problem 2: continued. Note: One approach to avoiding the output swing limitation is a -0.3V negative supply.

12 Quiz: Linear Range ADC + FDA
(False) Assume the input signal applied to an FDA has both even and odd order harmonics. The the FDA will cancel the even order harmonics. (False) The Vocm pin can be directly connected to a voltage divider to set it’s output common mode.

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