Model |
Manufacturers |
lot number |
encapsulation |
illustrate |
MCP6032-E/MS |
Microchip |
12+ |
SMD/SMT |
Operational amplifiers |
HCS201-I/P |
MICROCHIP |
12+ |
DIP |
Rolling encryption chip |
MCP6031DM-PTPLS |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6031T-E/SN |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6031T-E/OT |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6031T-E/MS |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6031T-E/MC |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6031-E/SN |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6031-E/MS |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6031-E/MC |
Microchip |
12+ |
SMD/SMT |
The MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA offset voltage, which is less than 150 microvolts. The MCP6031 uses Microchip's advanced CMOS technology to provide rail-to-rail input and output swing with low bias current, high speed, high open-loop gain. The MCP6031 can have a single supply voltage as low as 1.8V and a quiescent current of less than 1 microamp. be |
MCP6444T-E/ST |
Microchip |
12+ |
SMD/SMT |
The MCP6444 device is a four-nanopower op amp (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). These devices operate from a single supply as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
MCP6444T-E/SL |
Microchip |
12+ |
SMD/SMT |
The MCP6444 device is a four-nanopower op amp (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). These devices operate from a single supply as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
MCP6444-E/ST |
Microchip |
12+ |
SMD/SMT |
The MCP6444 device is a four-nanopower op amp (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). These devices operate from a single supply as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
MCP6444-E/SL |
Microchip |
12+ |
SMD/SMT |
The MCP6444 device is a four-nanopower op amp (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). These devices operate from a single supply as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
MCP6442T-E/MNY |
Microchip |
12+ |
SMD/SMT |
The MCP6442 device features a dual nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). The device operates from a single supply voltage as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications |
MCP6442T-E/SN |
Microchip |
12+ |
SMD/SMT |
The MCP6442 device features a dual nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). The device operates from a single supply voltage as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications |
MCP6442T-E/MS |
Microchip |
12+ |
SMD/SMT |
The MCP6442 device features a dual nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). The device operates from a single supply voltage as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications |
MCP6442-E/SN |
Microchip |
12+ |
SMD/SMT |
The MCP6442 device features a dual nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). The device operates from a single supply voltage as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications |
MCP6442-E/MS |
Microchip |
12+ |
SMD/SMT |
The MCP6442 device features a dual nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). The device operates from a single supply voltage as low as 1.4V. These features make home op amps ideal for single-supply, battery-powered applications |
MCP6441T-E/OT |
Microchip |
12+ |
SMD/SMT |
The MCP6441 device is a single nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is unity-gain stable with a gain bandwidth product of 9 kHz (typical). These devices operate from a single supply as low as 1.4V. These features make home op amps ideal for single-supply, battery-based applications |