Basic information of RC4227FN amplifier:
RC4227FN is an OPERATIONAL AMPLIFIER. Commonly used packaging methods are DIP, DIP8,.3
RC4227FN amplifier core information:
The minimum operating temperature of RC4227FN is and the maximum operating temperature is 70 °C. Its peak reflow temperature is NOT SPECIFIED Its maximum bias current at 25°C is: 0.015 µA Its maximum average bias current is 0.015 µA
How to simply check the efficiency of an amplifier? Looking at its slew rate, the RC4227FN has a nominal slew rate of 2.7 V/us. The minimum slew rate of RC4227FN given by the manufacturer is 1.5 V/us. Its minimum voltage gain is 400000. When the op amp is used in closed loop, at a certain closed-loop gain (usually 1 or 2, 10, etc.), the frequency when the RC4227FN gain becomes 0.707 times the low-frequency gain is 8000 kHz.
The nominal supply voltage of RC4227FN is 15 V, and its corresponding nominal negative supply voltage is -15 V. The input offset voltage of RC4227FN is 75 µV (Input offset voltage: the compensation voltage added between the two input terminals to make the output terminal of the operational amplifier 0V (or close to 0V).)
Related dimensions of RC4227FN:
RC4227FN has 8 terminals. Its terminal position type is: DUAL. Terminal pitch is 2.54 mm.
RC4227FN amplifier additional information:
RC4227FN adopts the VOLTAGE-FEEDBACK architecture. It belongs to the low offset class of amplifiers. The frequency compensation status of RC4227FN is: YES. Its temperature grade is: COMMERCIAL. RC4227FN is not Rohs certified.
The corresponding JESD-30 code is: R-PDIP-T8. The corresponding JESD-609 code is: e0. The packaging code of RC4227FN is: DIP. RC4227FN packaging materials are mostly PLASTIC/EPOXY. The package shape is RECTANGULAR.
The RC4227FN package pin format is: IN-LINE. Its terminal form is: THROUGH-HOLE.
Basic information of RC4227FN amplifier:
RC4227FN is an OPERATIONAL AMPLIFIER. Commonly used packaging methods are DIP, DIP8,.3
RC4227FN amplifier core information:
The minimum operating temperature of RC4227FN is and the maximum operating temperature is 70 °C. Its peak reflow temperature is NOT SPECIFIED Its maximum bias current at 25°C is: 0.015 µA Its maximum average bias current is 0.015 µA
How to simply check the efficiency of an amplifier? Looking at its slew rate, the RC4227FN has a nominal slew rate of 2.7 V/us. The minimum slew rate of RC4227FN given by the manufacturer is 1.5 V/us. Its minimum voltage gain is 400000. When the op amp is used in closed loop, at a certain closed-loop gain (usually 1 or 2, 10, etc.), the frequency when the RC4227FN gain becomes 0.707 times the low-frequency gain is 8000 kHz.
The nominal supply voltage of RC4227FN is 15 V, and its corresponding nominal negative supply voltage is -15 V. The input offset voltage of RC4227FN is 75 µV (Input offset voltage: the compensation voltage added between the two input terminals to make the output terminal of the operational amplifier 0V (or close to 0V).)
Related dimensions of RC4227FN:
RC4227FN has 8 terminals. Its terminal position type is: DUAL. Terminal pitch is 2.54 mm.
RC4227FN amplifier additional information:
RC4227FN adopts the VOLTAGE-FEEDBACK architecture. It belongs to the low offset class of amplifiers. The frequency compensation status of RC4227FN is: YES. Its temperature grade is: COMMERCIAL. RC4227FN is not Rohs certified.
The corresponding JESD-30 code is: R-PDIP-T8. The corresponding JESD-609 code is: e0. The packaging code of RC4227FN is: DIP. RC4227FN packaging materials are mostly PLASTIC/EPOXY. The package shape is RECTANGULAR.
The RC4227FN package pin format is: IN-LINE. Its terminal form is: THROUGH-HOLE.
| Parameter Name | Attribute value |
| Is it Rohs certified? | incompatible |
| Maker | Raytheon Company |
| package instruction | DIP, DIP8,.3 |
| Reach Compliance Code | unknown |
| Amplifier type | OPERATIONAL AMPLIFIER |
| Architecture | VOLTAGE-FEEDBACK |
| Maximum average bias current (IIB) | 0.015 µA |
| Maximum bias current (IIB) at 25C | 0.015 µA |
| Minimum Common Mode Rejection Ratio | 104 dB |
| Nominal Common Mode Rejection Ratio | 123 dB |
| frequency compensation | YES |
| Maximum input offset voltage | 75 µV |
| JESD-30 code | R-PDIP-T8 |
| JESD-609 code | e0 |
| low-dissonance | YES |
| Negative supply voltage upper limit | -18 V |
| Nominal Negative Supply Voltage (Vsup) | -15 V |
| Number of functions | 2 |
| Number of terminals | 8 |
| Maximum operating temperature | 70 °C |
| Minimum operating temperature | |
| Package body material | PLASTIC/EPOXY |
| encapsulated code | DIP |
| Encapsulate equivalent code | DIP8,.3 |
| Package shape | RECTANGULAR |
| Package form | IN-LINE |
| Peak Reflow Temperature (Celsius) | NOT SPECIFIED |
| power supply | +-15 V |
| Certification status | Not Qualified |
| minimum slew rate | 1.5 V/us |
| Nominal slew rate | 2.7 V/us |
| Supply voltage upper limit | 18 V |
| Nominal supply voltage (Vsup) | 15 V |
| surface mount | NO |
| technology | BIPOLAR |
| Temperature level | COMMERCIAL |
| Terminal surface | Tin/Lead (Sn/Pb) |
| Terminal form | THROUGH-HOLE |
| Terminal pitch | 2.54 mm |
| Terminal location | DUAL |
| Maximum time at peak reflow temperature | NOT SPECIFIED |
| Nominal Uniform Gain Bandwidth | 8000 kHz |
| Minimum voltage gain | 400000 |
| Base Number Matches | 1 |
| RC4227FN | RC4227FDE | RC4227FNB | RM4227BD/883B | RM4227BDE | RM4227BD | RM4227BDE/883B | RC4227GN | RC4227GNB | |
|---|---|---|---|---|---|---|---|---|---|
| Description | Operational Amplifier, 2 Func, 75uV Offset-Max, BIPolar, PDIP8, | Operational Amplifier, 2 Func, 150uV Offset-Max, BIPolar, CDIP8, | Operational Amplifier, 2 Func, 150uV Offset-Max, BIPolar, PDIP8, | Operational Amplifier, 2 Func, 75uV Offset-Max, BIPolar, CDIP8, | Operational Amplifier, 2 Func, 200uV Offset-Max, BIPolar, CDIP8, | Operational Amplifier, 2 Func, 75uV Offset-Max, BIPolar, CDIP8, | Operational Amplifier, 2 Func, 200uV Offset-Max, BIPolar, CDIP8, | Operational Amplifier, 2 Func, 150uV Offset-Max, BIPolar, PDIP8, | Operational Amplifier, 2 Func, 250uV Offset-Max, BIPolar, PDIP8, |
| Is it Rohs certified? | incompatible | incompatible | incompatible | incompatible | incompatible | incompatible | incompatible | incompatible | incompatible |
| Reach Compliance Code | unknown | unknown | unknown | unknown | unknown | unknown | unknown | unknown | unknown |
| Amplifier type | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER | OPERATIONAL AMPLIFIER |
| Architecture | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK | VOLTAGE-FEEDBACK |
| Maximum bias current (IIB) at 25C | 0.015 µA | 0.055 µA | 0.055 µA | 0.015 µA | 0.055 µA | 0.015 µA | 0.055 µA | 0.025 µA | 0.08 µA |
| frequency compensation | YES | YES | YES | YES | YES | YES | YES | YES | YES |
| Maximum input offset voltage | 75 µV | 150 µV | 150 µV | 75 µV | 200 µV | 75 µV | 200 µV | 150 µV | 250 µV |
| JESD-30 code | R-PDIP-T8 | R-XDIP-T8 | R-PDIP-T8 | R-GDIP-T8 | R-XDIP-T8 | R-GDIP-T8 | R-XDIP-T8 | R-PDIP-T8 | R-PDIP-T8 |
| JESD-609 code | e0 | e0 | e0 | e0 | e0 | e0 | e0 | e0 | e0 |
| low-dissonance | YES | YES | YES | YES | YES | YES | YES | YES | YES |
| Nominal Negative Supply Voltage (Vsup) | -15 V | -15 V | -15 V | -15 V | -15 V | -15 V | -15 V | -15 V | -15 V |
| Number of functions | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 |
| Number of terminals | 8 | 8 | 8 | 8 | 8 | 8 | 8 | 8 | 8 |
| Maximum operating temperature | 70 °C | 70 °C | 70 °C | 125 °C | 125 °C | 125 °C | 125 °C | 70 °C | 70 °C |
| Package body material | PLASTIC/EPOXY | CERAMIC | PLASTIC/EPOXY | CERAMIC, GLASS-SEALED | CERAMIC | CERAMIC, GLASS-SEALED | CERAMIC | PLASTIC/EPOXY | PLASTIC/EPOXY |
| encapsulated code | DIP | DIP | DIP | DIP | DIP | DIP | DIP | DIP | DIP |
| Encapsulate equivalent code | DIP8,.3 | DIP8,.3 | DIP8,.3 | DIP8,.3 | DIP8,.3 | DIP8,.3 | DIP8,.3 | DIP8,.3 | DIP8,.3 |
| Package shape | RECTANGULAR | RECTANGULAR | RECTANGULAR | RECTANGULAR | RECTANGULAR | RECTANGULAR | RECTANGULAR | RECTANGULAR | RECTANGULAR |
| Package form | IN-LINE | IN-LINE | IN-LINE | IN-LINE | IN-LINE | IN-LINE | IN-LINE | IN-LINE | IN-LINE |
| Certification status | Not Qualified | Not Qualified | Not Qualified | Not Qualified | Not Qualified | Not Qualified | Not Qualified | Not Qualified | Not Qualified |
| minimum slew rate | 1.5 V/us | 1.5 V/us | 1.5 V/us | 1.5 V/us | 1.5 V/us | 1.5 V/us | 1.5 V/us | 0.1 V/us | 1.5 V/us |
| Supply voltage upper limit | 18 V | 18 V | 18 V | 18 V | 18 V | 18 V | 18 V | 18 V | 18 V |
| Nominal supply voltage (Vsup) | 15 V | 15 V | 15 V | 15 V | 15 V | 15 V | 15 V | 15 V | 15 V |
| surface mount | NO | NO | NO | NO | NO | NO | NO | NO | NO |
| technology | BIPOLAR | BIPOLAR | BIPOLAR | BIPOLAR | BIPOLAR | BIPOLAR | BIPOLAR | BIPOLAR | BIPOLAR |
| Temperature level | COMMERCIAL | COMMERCIAL | COMMERCIAL | MILITARY | MILITARY | MILITARY | MILITARY | COMMERCIAL | COMMERCIAL |
| Terminal surface | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) | Tin/Lead (Sn/Pb) |
| Terminal form | THROUGH-HOLE | THROUGH-HOLE | THROUGH-HOLE | THROUGH-HOLE | THROUGH-HOLE | THROUGH-HOLE | THROUGH-HOLE | THROUGH-HOLE | THROUGH-HOLE |
| Terminal pitch | 2.54 mm | 2.54 mm | 2.54 mm | 2.54 mm | 2.54 mm | 2.54 mm | 2.54 mm | 2.54 mm | 2.54 mm |
| Terminal location | DUAL | DUAL | DUAL | DUAL | DUAL | DUAL | DUAL | DUAL | DUAL |
| Minimum voltage gain | 400000 | 100000 | 100000 | 400000 | 100000 | 400000 | 100000 | 300000 | 75000 |
| Maker | Raytheon Company | - | - | Raytheon Company | Raytheon Company | Raytheon Company | Raytheon Company | Raytheon Company | - |
| package instruction | DIP, DIP8,.3 | DIP, DIP8,.3 | - | DIP, DIP8,.3 | - | DIP, DIP8,.3 | DIP, DIP8,.3 | DIP, DIP8,.3 | - |
| power supply | +-15 V | - | - | +-15 V | +-15 V | +-15 V | +-15 V | +-15 V | - |
| Maximum slew rate | - | 16 mA | 16 mA | - | 18.7 mA | - | 18.7 mA | - | 18.7 mA |
Embedded System
Microcontroller MCU
Automotive Electronics
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Microcontroller MCU
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