Datasheet LT1787, LT1787HV (Analog Devices) - 4

ManufacturerAnalog Devices
DescriptionPrecision, High Side Current Sense Amplifiers
Pages / Page16 / 4 — ELECTRICAL CHARACTERISTICS. The. denotes the specifications which apply …
File Format / SizePDF / 283 Kb
Document LanguageEnglish

ELECTRICAL CHARACTERISTICS. The. denotes the specifications which apply over the temperature range –40

ELECTRICAL CHARACTERISTICS The denotes the specifications which apply over the temperature range –40

Model Line for this Datasheet

Text Version of Document

LT1787/LT1787HV
ELECTRICAL CHARACTERISTICS The

denotes the specifications which apply over the temperature range –40
°
C

TA

85
°
C, otherwise specifications are at T A = 25
°
C. Total supply = (VS – VEE) = 2.5V to 36V (LT1787I), 2.5V to 60V (LT1787HVI) unless otherwise specified. (Note 5) SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS
V – + S , VS Sense Amplifier Supply Voltage Single Supply Operation (LT1787) ● 2.5 36 V Single Supply Operation (LT1787HV) ● 2.5 60 V V + – SENSE Input Sense Voltage Full Scale VSENSE = VS – VS , VS = 10V, VBIAS = 5V, AV = 8 ±10% ● 500 mV VOS Input Offset Voltage (S8) IOUT = 0, VS Supply = 5V – 75 ±40 75 µV – 40°C ≤ TA ≤ 85°C ● – 200 200 µV IOUT = 0 (LT1787) – 100 100 µV – 40°C ≤ TA ≤ 85°C ● – 225 225 µV IOUT = 0 (LT1787HV) – 100 100 µV – 40°C ≤ TA ≤ 85°C ● – 225 225 µV Input Offset Voltage (MS8) IOUT = 0, VS Supply = 5V – 125 ±40 125 µV – 40°C ≤ TA ≤ 85°C ● – 250 250 µV IOUT = 0 (LT1787) – 150 150 µV – 40°C ≤ TA ≤ 85°C ● – 280 280 µV IOUT = 0 (LT1787HV) – 150 150 µV – 40°C ≤ TA ≤ 85°C ● – 280 280 µV VOS TC Temperature Coefficient of VOS VS Supply = 5V (Note 6) ● 0.5 2 µV/°C IOUT(O) No-Load Output Current Error VSENSE = 0V 4 nA VOUT(O) No-Load Output Voltage Error VSENSE = 0V, VS Supply = 5V –600 600 µV (S8) – 40°C ≤ TA ≤ 85°C ● –1600 1600 µV No-Load Output Voltage Error VSENSE = 0V, VS Supply = 5V – 1000 1000 µV (MS8) – 40°C ≤ TA ≤ 85°C ● –2000 2000 µV gm Tranconductance, IOUT/ VSENSE ±VSENSE = 10mV, 50mV, 100mV, 150mV, 250mV, 400 µA/V VS Supply = Total Supply + |VSENSE| AV Gain, VOUT/ VSENSE ±VSENSE = 100mV, VS Supply = 5V ● 7.76 8 8.24 V/V Output Voltage Gain Error ±VSENSE = 100mV, VS Supply = 5V ● – 3 1 3 % VS PSRR VS Supply Rejection Ratio VSENSE = 0V, VS Supply = 2.5V to 36V (LT1787) ● 120 135 dB VSENSE = 0V, VS Supply = 2.5V to 60V (LT1787HV) ● 120 135 dB VEE PSRR Negative Supply Rejection Ratio VSENSE = 0V, VS Supply = 15V, VBIAS = 0V, ● 100 130 dB VEE = – 1V to – 15V (LT1787) VSENSE = 0V, VS Supply = 40V, VBIAS = 0V, ● 100 130 dB VEE = – 1V to – 15V (LT1787HV) ∆VOS Change in Input Offset Voltage VSENSE = 0V, VS Supply = 36V, VBIAS = 0.5V to 25V (LT1787) ● 100 130 dB ∆VBIAS with Change in VBIAS Voltage VSENSE = 0V, VS Supply = 60V, VBIAS = 0.5V to 25V (LT1787HV) ● 100 130 dB I + S (O) Positive Input Sense Current VSENSE = 0V ● 10 20 µA I – S (O) Negative Input Sense Current VSENSE = 0V ● 50 100 µA IEE(O) Negative Supply Current VSENSE = 0V ● 60 120 µA IOUT Output Current VSENSE = ±128mV ±50 µA V + OUT Output Voltage VSENSE = ±128mV, VS ≥ 3.3V VBIAS ±1.024 V Ripple Rejection V + – S = VS = 20V, ∆VS Supply = 1V, f = 1kHz ● 80 88 dB VOMIN Minimum Output Voltage VSENSE = 0V, VBIAS = 0V 30 45 mV V + – SENSE = VS – VS = –128mV, VBIAS = 0V 10 mV VSENSE = 0V, VBIAS = 0V ● 30 51 mV V + – SENSE = VS – VS = –128mV, VBIAS = 0V 10 mV 1787fc 4