No. |
Part Name |
Description |
Manufacturer |
1951 |
MCP1525 |
MCP1525 is a low power, high precision voltage reference. It provides a precise output voltage of 2.5V which is then compared to other voltages in the system.This voltage reference is normally used in the 3V to 5V systems, where there may |
Microchip |
1952 |
MCP1541 |
MCP1541 is a low power, high precision voltage reference. It provides a precise output voltage of 4.096V which is then compared to other voltages in the system.This voltage reference is normally used in the 3V to 5V systems, where there ma |
Microchip |
1953 |
MCP1541 |
MCP1541 is a low power, high precision voltage reference. It provides a precise output voltage of 4.096V which is then compared to other voltages in the system.This voltage reference is normally used in the 3V to 5V systems, where there ma |
Microchip |
1954 |
MCP3021 |
The Microchip Technology Inc. MCP3021 is a successive approximation A/D converter with 10-bit resolution. Available in the SOT-23 package, this device provides one, single-ended input with very low power consumption. Based on an advanced C |
Microchip |
1955 |
MCP3021A5T-E/OT |
The Microchip Technology Inc. MCP3021 is a successive approximation A/D converter with 10-bit resolution. Available in the SOT-23 ... |
Microchip |
1956 |
MCP3221 |
The Microchip Technology Inc. MCP3221 is a successive approximation A/D converter with 12-bit resolution. Available in the SOT-23 package, this device provides one single-ended input with very low power consumption. Based on an advanced CM |
Microchip |
1957 |
MCP3221A5T-E/OT |
The Microchip Technology Inc. MCP3221 is a successive approximation A/D converter with 12-bit resolution. Available in the SOT-23 ... |
Microchip |
1958 |
MCP3221A5T-I/OT |
The Microchip Technology Inc. MCP3221 is a successive approximation A/D converter with 12-bit resolution. Available in the SOT-23 ... |
Microchip |
1959 |
MCP3221A6T-E/OT |
The Microchip Technology Inc. MCP3221 is a successive approximation A/D converter with 12-bit resolution. Available in the SOT-23 ... |
Microchip |
1960 |
MCP6541 |
The MCP6541 is a Push-pull, single comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the eight lead PDIP, SOIC, MSOP and five le |
Microchip |
1961 |
MCP6542 |
The MCP6542 is a Push-pull, dual comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the eight lead PDIP, SOIC and MSOP package. |
Microchip |
1962 |
MCP6543 |
The MCP6543 is a Push-pull, single comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the eight lead PDIP, SOIC and MSOP package, |
Microchip |
1963 |
MCP6544 |
The MCP6544 is a Push-pull, quad comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the 16 lead PDIP, SOIC and 14 lead TSSOP pack |
Microchip |
1964 |
MCP6546 |
The MCP6546 is an Open-Drain, single comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp and is 10V output capable. This device is offered in the eight lead |
Microchip |
1965 |
MCP6547 |
The MCP6547 is an Open Drain, dual comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp and is 10V output capable. This device is offered in the eight lead PD |
Microchip |
1966 |
MCP6548 |
The MCP6548 is an Open Drain, single comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp and is 10V output capable. This device is offered in the eight lead |
Microchip |
1967 |
MCP6549 |
The MCP6549 is an Open Drain, quad comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp and is 10V output capable. This device is offered in the sixteen lead |
Microchip |
1968 |
MCR2604-1 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1969 |
MCR2604-2 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1970 |
MCR2604-3 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1971 |
MCR2604-4 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1972 |
MCR2604-5 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1973 |
MCR2604-6 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1974 |
MCR2604-7 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1975 |
MCR2604-8 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 87 illustrated |
Motorola |
1976 |
MCR2605-1 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 88 illustrated |
Motorola |
1977 |
MCR2605-2 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 88 illustrated |
Motorola |
1978 |
MCR2605-3 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 88 illustrated |
Motorola |
1979 |
MCR2605-4 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 88 illustrated |
Motorola |
1980 |
MCR2605-5 |
Silicon controlled rectifier are electrically identical to the 2N4151 thru 2N4198 series, but are available in the case 88 illustrated |
Motorola |
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