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MCP6L71 Datasheet, PDF (11/32 Pages) Microchip Technology – 2 MHz, 150 μA Op Amps
MCP6L71/1R/2/4
3.0 PIN DESCRIPTIONS
Descriptions of the pins are listed in Table 3-1 (single op amps) and Table 3-2 (dual and quad op amps).
TABLE 3-1: PIN FUNCTION TABLE FOR SINGLE OP AMPS
MCP6L71
MSOP, SOIC
SOT-23-5
MCP6L71R
SOT-23-5
Symbol
Description
2
4
3
3
4
2
6
1
7
5
1,5,8
—
4
VIN–
Inverting Input
3
VIN+
Non-inverting Input
5
VSS
Negative Power Supply
1
VOUT
Analog Output
2
VDD
Positive Power Supply
—
NC
No Internal Connection
TABLE 3-2:
MCP6L72
MSOP, SOIC
1
2
3
8
5
6
7
—
—
—
4
—
—
—
PIN FUNCTION TABLE FOR DUAL AND QUAD OP AMPS
MCP6L74
SOIC, TSSOP
Symbol
Description
1
VOUTA
Analog Output (op amp A)
2
VINA–
Inverting Input (op amp A)
3
VINA+
Non-inverting Input (op amp A)
4
VDD
Positive Power Supply
5
VINB+
Non-inverting Input (op amp B)
6
VINB–
Inverting Input (op amp B)
7
VOUTB
Analog Output (op amp B)
8
VOUTC
Analog Output (op amp C)
9
VINC–
Inverting Input (op amp C)
10
VINC+
Non-inverting Input (op amp C)
11
VSS
Negative Power Supply
12
VIND+
Non-inverting Input (op amp D)
13
VIND–
Inverting Input (op amp D)
14
VOUTD
Analog Output (op amp D)
3.1 Analog Outputs
The output pins are low impedance voltage sources.
3.2 Analog Inputs
The non-inverting and inverting inputs are high
impedance CMOS inputs with low bias currents.
3.3 Power Supply Pins
The positive power supply (VDD) is 2.0V to 6.0V higher
than the negative power supply (VSS). For normal
operation, the other pins are at voltages between VSS
and VDD.
Typically, these parts are used in a single (positive)
supply configuration. In this case, VSS is connected to
ground and VDD is connected to the supply. VDD will
need bypass capacitors.
© 2009 Microchip Technology Inc.
DS22145A-page 11