LT6107 ELECTRICAL CHARACTERISTICS The l denotes the specifications which apply over the full specifiedoperating temperature range, otherwise specifications are at TA = 25°C. V+ = 12V, V+ = VSENSE+, RIN = 100Ω, ROUT = 10k, Gain = 100unless otherwise noted. (Note 6)SYMBOLPARAMETERCONDITIONSMINTYPMAXUNITS VOUT(HIGH) Output Swing High VSENSE = 120mV 1.2 V (Referred to V+) l 1.4 V Minimum Output Voltage VSENSE = 0mV, RIN = 100Ω, ROUT = 10k 12 45 mV (Note 5) l 85 mV VSENSE = 0mV, RIN = 500Ω, ROUT = 10k, V+ = 12V, 36V 7 16 mV l 40 mV BW Signal Bandwidth (–3dB) IOUT = 1mA, RIN = 100Ω, ROUT = 5k 200 kHz tr Input Step Response (to 50% of ∆VSENSE = 100mV Step, RIN = 100Ω, ROUT = 5k, 3.5 µs Output Step) Rising Edge IS Supply Current V+ = 2.7V, IOUT = 0µA, (VSENSE = –5mV) 60 85 µA l 120 V+ = 12V, IOUT = 0µA, (VSENSE = –5mV) 65 95 µA l 125 V+ = 36V, IOUT = 0µA, (VSENSE = –5mV) 70 100 µA l 135 Note 1: Stresses beyond those listed under Absolute Maximum Ratings Note 3: Guaranteed by the gain error test. may cause permanent damage to the device. Exposure to any Absolute Note 4: Gain error refers to the contribution of the LT6107 internal circuitry Maximum Rating condition for extended periods may affect device and does not include errors in the external gain setting resistors. reliability and lifetime. In addition to the Absolute Maximum Ratings, the Note 5: The LT6107 output is an open collector current source. The output current of the LT6107 must be limited to insure that the power minimum output voltage scales directly with the ratio R dissipation in the LT6107 does not allow the die temperature to exceed OUT/10k. Note 6: V 150°C. See the applications information section “Power Dissipation SENSE+ is the voltage at the high side of the sense resistor, R Considerations” for further information. SENSE. See Figure 1. Note 7: V Note 2: Junction temperatures greater than 125°C will promote SENSE(MAX) is the maximum sense voltage for which the Electrical Characteristics will apply. Higher voltages can affect performance but will accelerated aging. The LT6107 has demonstrated typical life beyond 1000 not damage the part provided that the output current of the LT6107 does hours at 150°C. LT6107H is guaranteed to meet specified performance not exceed the allowable power dissipation as described in Note 1. from –40°C to 150°C. LT6107MP is guaranteed to meet specified performance from –55°C to 150°C. TYPICAL PERFORMANCE CHARACTERISTICS Input Offset Voltage vsInput Offset Voltage vsVOS DistributionSupply VoltageTemperature 70 600 16 V+ = 12V VSENSE = 5mV VSENSE = 5mV V V) 60 SENSE = 5mV RIN = 100Ω 500 V+ = 12V 14 R 50 IN = 100Ω ROUT = 10k RIN = 100Ω R 400 OUT = 10k 40 TAGE (µ TYPICAL UNITS V) ROUT = 10k 12 1068 UNITS 30 300 AV = 100 20 TYPICAL UNITS 10 TAGE (µ 10 200 8 0 100 –10 0 6 –20 PERCENT OF UNITS (%) –30 –100 4 –40 INPUT OFFSET VOL–200 2 –50 CHANGE IN INPUT OFFSET VOL –60 –300 0 –70 –400 –200 –120 –40 0 40 120 200 0 5 10 15 20 25 30 35 40 –55 –35 –15 5 25 45 65 85 105 125 145 165 INPUT OFFSET VOLTAGE (µV) SUPPLY VOLTAGE (V) TEMPERATURE (°C) 6107 G23 6107 G02 6107 G03 6107fc For more information www.linear.com/LT6107 3