| Model |
Manufacturers |
lot number |
encapsulation |
illustrate |
| MCP6031DM-PTPLS |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6031T-E/SN |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6031T-E/OT |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6031T-E/MS |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6031T-E/MC |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6031-E/SN |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6031-E/MS |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6031-E/MC |
Microchip |
12+ |
SMD/SMT |
MCP6031 op amp (op amp) has a gain bandwidth of 10 kHz with a low typical operating current of 900 nA with an offset voltage of less than 150 microvolts. MCP6031 uses Microchip's advanced CMOS technology to provide low bias current, high speed, high open-loop gain rail-to-rail input and output swing. MCP6031 can be as low as 1.8V from a single supply and less than 1 microamp of quiescent current. be |
| MCP6444T-E/ST |
Microchip |
12+ |
SMD/SMT |
MCP6444 device is a four-nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. These devices operate from a single supply with a low voltage of 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
| MCP6444T-E/SL |
Microchip |
12+ |
SMD/SMT |
MCP6444 device is a four-nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. These devices operate from a single supply with a low voltage of 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
| MCP6444-E/ST |
Microchip |
12+ |
SMD/SMT |
MCP6444 device is a four-nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. These devices operate from a single supply with a low voltage of 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
| MCP6444-E/SL |
Microchip |
12+ |
SMD/SMT |
MCP6444 device is a four-nanopower operational amplifier (op amp) with low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. These devices operate from a single supply with a low voltage of 1.4V. These features make home op amps ideal for single-supply, battery-powered applications. |
| MCP6442T-E/MNY |
Microchip |
12+ |
SMD/SMT |
MCP6442 device's dual nanopower op amp (op amp) features low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. 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 |
MCP6442 device's dual nanopower op amp (op amp) features low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. 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 |
MCP6442 device's dual nanopower op amp (op amp) features low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. 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 |
MCP6442 device's dual nanopower op amp (op amp) features low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. 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 |
MCP6442 device's dual nanopower op amp (op amp) features low quiescent current (450 nA, typical) and rail-to-rail input and output operation. The op amp is a stable gain bandwidth product of 9 kHz (typical) per unit gain. 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 |
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 a stable gain bandwidth product of 9 kHz (typical) per unit gain. These devices operate from a single supply with a low voltage of 1.4V. These features make home op amps ideal for single-power sources, batteries |
| MCP6441T-E/LT |
Microchip |
12+ |
SMD/SMT |
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 a stable gain bandwidth product of 9 kHz (typical) per unit gain. These devices operate from a single supply with a low voltage of 1.4V. These features make home op amps ideal for single-power sources, batteries |
| MCP6561 |
MICROCHIP |
11+ |
SOT23-5 |
Comparator for 1.8V low-power push-pull output |