Datasheet LT1996 (Analog Devices) - 5
| Hersteller | Analog Devices |
| Beschreibung | Precision, 100µA Gain Selectable Amplifier |
| Seiten / Seite | 24 / 5 — ELECTRICAL CHARACTERISTICS. Note 4:. Note 5:. Note 8:. Note 6:. Note 9:. … |
| Dateiformat / Größe | PDF / 351 Kb |
| Dokumentensprache | Englisch |
ELECTRICAL CHARACTERISTICS. Note 4:. Note 5:. Note 8:. Note 6:. Note 9:. Note 7:. Note 10:
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LT1996
ELECTRICAL CHARACTERISTICS Note 4:
Both the LT1996C and LT1996I are guaranteed functional over the determine the valid input voltage range under various operating –40°C to 85°C temperature range. conditions.
Note 5:
The LT1996C is guaranteed to meet the specified performance
Note 8:
Offset voltage, offset voltage drift and PSRR are defined as from 0°C to 70°C and is designed, characterized and expected to meet referred to the internal op amp. You can calculate output offset as follows. specified performance from –40°C to 85°C but is not tested or QA In the case of balanced source resistance, VOS, OUT = VOS • Noise Gain + sampled at these temperatures. The LT1996I is guaranteed to meet IOS • 450k + IB • 450k • (1 – RP/RN) where RP and RN are the total specified performance from –40°C to 85°C. resistance at the op amp positive and negative terminal respectively.
Note 6:
This parameter is not 100% tested.
Note 9:
Resistors connected to the minus inputs. Resistor matching is not
Note 7:
Input voltage range is guaranteed by the CMRR test at V tested directly, but is guaranteed by the gain error test. S = ±15V. For the other voltages, this parameter is guaranteed by design and through
Note 10:
Input impedance is tested by a combination of direct correlation with the ±15V test. See the Applications Information section to measurements and correlation to the CMRR and gain error tests.
W U TYPICAL PERFOR A CE CHARACTERISTICS (Difference Amplifier Configuration) Output Voltage Swing vs Output Voltage Swing vs Load Supply Current vs Supply Voltage Temperature Current (Output Low)
200 VCC 1400 V V S = 5V, 0V S = 5V, 0V 175 NO LOAD –20 1200 TA = 85°C OUTPUT HIGH TA = 85°C A) 150 (RIGHT AXIS) –40 µ TA = 25°C 1000 125 –60 800 100 TA = –40°C TA = 25°C 600 75 60 TA = –40°C SUPPLY CURRENT ( 50 40 OUTPUT VOLTAGE (mV) 400 OUTPUT LOW OUTPUT VOLTAGE SWING (mV) 25 20 (LEFT AXIS) 200 0 VEE VEE 0 2 4 6 8 10 12 14 16 18 20 –50 –25 0 25 50 75 100 125 0 1 2 3 4 5 6 7 8 9 10 SUPPLY VOLTAGE (±V) TEMPERATURE (°C) LOAD CURRENT (mA) 1996 G01 1996 G02 1996 G03
Output Voltage Swing vs Load Output Short-Circuit Current vs Input Offset Voltage vs Current (Output High) Temperature Difference Gain
VCC 25 150 VS = 5V, 0V V V S = 5V, 0V S = 5V, 0V –100 REPRESENTATIVE PARTS SINKING 100 –200 20 V) T µ A = –40°C –300 T 50 A = 85°C –400 15 TA = 25°C –500 0 –600 10 SOURCING –50 –700 –800 INPUT OFFSET VOLTAGE ( OUTPUT VOLTAGE SWING (mV) 5 –100 –900 OUTPUT SHORT-CIRCUIT CURRENT (mA) –1000 0 –150 0 1 2 3 4 5 6 7 8 9 10 –50 –25 0 25 50 75 100 125 9 18 27 36 45 54 63 72 81 90 99 108 117 LOAD CURRENT (mA) 1996 G04 TEMPERATURE (°C) GAIN (V/V) 1996 G05 1996 G06 1996f 5
ELECTRICAL CHARACTERISTICS Note 4:
Both the LT1996C and LT1996I are guaranteed functional over the determine the valid input voltage range under various operating –40°C to 85°C temperature range. conditions.
Note 5:
The LT1996C is guaranteed to meet the specified performance
Note 8:
Offset voltage, offset voltage drift and PSRR are defined as from 0°C to 70°C and is designed, characterized and expected to meet referred to the internal op amp. You can calculate output offset as follows. specified performance from –40°C to 85°C but is not tested or QA In the case of balanced source resistance, VOS, OUT = VOS • Noise Gain + sampled at these temperatures. The LT1996I is guaranteed to meet IOS • 450k + IB • 450k • (1 – RP/RN) where RP and RN are the total specified performance from –40°C to 85°C. resistance at the op amp positive and negative terminal respectively.
Note 6:
This parameter is not 100% tested.
Note 9:
Resistors connected to the minus inputs. Resistor matching is not
Note 7:
Input voltage range is guaranteed by the CMRR test at V tested directly, but is guaranteed by the gain error test. S = ±15V. For the other voltages, this parameter is guaranteed by design and through
Note 10:
Input impedance is tested by a combination of direct correlation with the ±15V test. See the Applications Information section to measurements and correlation to the CMRR and gain error tests.
W U TYPICAL PERFOR A CE CHARACTERISTICS (Difference Amplifier Configuration) Output Voltage Swing vs Output Voltage Swing vs Load Supply Current vs Supply Voltage Temperature Current (Output Low)
200 VCC 1400 V V S = 5V, 0V S = 5V, 0V 175 NO LOAD –20 1200 TA = 85°C OUTPUT HIGH TA = 85°C A) 150 (RIGHT AXIS) –40 µ TA = 25°C 1000 125 –60 800 100 TA = –40°C TA = 25°C 600 75 60 TA = –40°C SUPPLY CURRENT ( 50 40 OUTPUT VOLTAGE (mV) 400 OUTPUT LOW OUTPUT VOLTAGE SWING (mV) 25 20 (LEFT AXIS) 200 0 VEE VEE 0 2 4 6 8 10 12 14 16 18 20 –50 –25 0 25 50 75 100 125 0 1 2 3 4 5 6 7 8 9 10 SUPPLY VOLTAGE (±V) TEMPERATURE (°C) LOAD CURRENT (mA) 1996 G01 1996 G02 1996 G03
Output Voltage Swing vs Load Output Short-Circuit Current vs Input Offset Voltage vs Current (Output High) Temperature Difference Gain
VCC 25 150 VS = 5V, 0V V V S = 5V, 0V S = 5V, 0V –100 REPRESENTATIVE PARTS SINKING 100 –200 20 V) T µ A = –40°C –300 T 50 A = 85°C –400 15 TA = 25°C –500 0 –600 10 SOURCING –50 –700 –800 INPUT OFFSET VOLTAGE ( OUTPUT VOLTAGE SWING (mV) 5 –100 –900 OUTPUT SHORT-CIRCUIT CURRENT (mA) –1000 0 –150 0 1 2 3 4 5 6 7 8 9 10 –50 –25 0 25 50 75 100 125 9 18 27 36 45 54 63 72 81 90 99 108 117 LOAD CURRENT (mA) 1996 G04 TEMPERATURE (°C) GAIN (V/V) 1996 G05 1996 G06 1996f 5