LT6107 TYPICAL PERFORMANCE CHARACTERISTICS Output Voltage vs Input SenseOutput Voltage vs Input SenseVoltage (0mV ≤ VSENSE ≤ 200mV)Voltage (0mV ≤ VSENSE ≤ 1V)Supply Current vs Supply Voltage 12 12 120 V+ = 12V V+ = 12V AV = 100 AV = 20 10 RIN = 100Ω 10 RIN = 500Ω 100 ROUT = 10k ROUT = 10k 8 8 80 (V) (V) 6 6 60 V OUT V OUT Y CURRENT (µA) TA = –55°C 4 4 40 TA = –40°C SUPPL TA = 25°C T 2 2 20 A = 70°C TA = 125°C TA = 150°C T 0 0 A = 175°C 0 0 20 40 60 80 100 120 140 160 180 200 0 100 200 300 400 500 600 700 800 900 1000 0 5 10 15 20 25 30 35 40 45 VSENSE (mV) VSENSE (mV) SUPPLY VOLTAGE (V) 6107 G21 6107 G22 6107 G01 PIN FUNCTIONS OUT (Pin 1): Current Output. OUT will source a current V+ (Pin 5): Positive Supply Pin. The V+ pin should be con- that is proportional to the sense voltage into an external nected directly to either side of the sense resistor, RSENSE. resistor. Supply current is drawn through this pin. The circuit may V– (Pin 2): Normally Connected to Ground. be configured so that the LT6107 supply current is or is not monitored along with the system load current. To –IN (Pin 3): The internal sense amplifier will drive –IN to monitor only the system load current, connect V+ to the the same potential as +IN. A resistor (RIN) tied from V+ more positive side of the sense resistor. To monitor the to –IN sets the output current I OUT = VSENSE/RIN. VSENSE total current, including that of the LT6107, connect V+ to is the voltage developed across RSENSE. the more negative side of the sense resistor. +IN (Pin 4): Must be tied to the system load end of the sense resistor, either directly or through a resistor. BLOCK DIAGRAM ILOAD VSENSE – + VBATTERY RSENSE 5 L RIN V+ O A D –IN 14k – 3 +IN 14k + 4 IOUT OUT R 1 V OUT V– OUT = VSENSE • RIN 2 R 6107 F01 OUT Figure 1. LT6107 Block Diagram and Typical Connection 6107fc 6 For more information www.linear.com/LT6107
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