Rohm Semiconductor BU7486SFV-E2
- Part Number:
- BU7486SFV-E2
- Manufacturer:
- Rohm Semiconductor
- Ventron No:
- 3690965-BU7486SFV-E2
- Description:
- IC OPAMP GROUND SENSE 8SSOP
- Datasheet:
- BU7486SFV-E2
Rohm Semiconductor BU7486SFV-E2 technical specifications, attributes, parameters and parts with similar specifications to Rohm Semiconductor BU7486SFV-E2.
- Factory Lead Time6 Weeks
- MountSurface Mount
- Package / CaseLSSOP
- Number of Pins8
- PackagingTape & Reel (TR)
- Published2013
- Part StatusActive
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations8
- ECCN CodeEAR99
- Max Operating Temperature105°C
- Min Operating Temperature-40°C
- SubcategoryOperational Amplifier
- Max Power Dissipation500mW
- TechnologyCMOS
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)NOT SPECIFIED
- Number of Functions2
- Supply Voltage3V
- Terminal Pitch0.65mm
- Time@Peak Reflow Temperature-Max (s)NOT SPECIFIED
- Temperature GradeINDUSTRIAL
- Number of Circuits2
- Max Supply Voltage5.5V
- Operating Supply Current3mA
- Slew Rate10 V/μs
- Amplifier TypeOPERATIONAL AMPLIFIER
- Common Mode Rejection Ratio60 dB
- Output Current per Channel12mA
- Input Offset Voltage (Vos)1mV
- Bandwidth10MHz
- Gain Bandwidth Product10MHz
- Input Bias Current1pA
- Length4.4mm
- Height Seated (Max)1.35mm
- RoHS StatusROHS3 Compliant
- Lead FreeLead Free
BU7486SFV-E2 Overview
There is a LSSOP case in which the instrumentation amplifier is packaged. Buffer amps of this type are called OPERATIONAL AMPLIFIER-types. A Tape & Reel (TR) case is used to deliver the buffer op amp. The number of terminations is approaching the 8 mark. The linear amplifier should be run at 3V at all times, so please keep that in mind when using it. In order to be more specific, this instrumentation amplifier is one of the types of Operational Amplifier devices. 8 pins are included on the operational amplifiers. As far as the input offset voltage is concerned, linear amplifier rates at 1mV. It is possible to operate this buffer amplifier from a supply current of 3mA . A linear amplifier like this has 2 circuits on it. In order for this buffer op amp to function, it should have a temperature of at least -40°C degrees Celsius. At temperatures greater than 105°C, Instrumentation amplifier should not be used. The electrical part is capable of being powered by a voltage of under 5.5V, which means that it can be used with any voltage supply.
BU7486SFV-E2 Features
supply voltage of 3V
BU7486SFV-E2 Applications
There are a lot of ROHM Semiconductor
BU7486SFV-E2 Instrumentational OP Amps applications.
Subtraction operation circuits
single/dual op amp sum and difference circuits
Integrator circuits
Differentiator circuits
Logarithmic operation circuits
Exponential operation circuits
Multiplication circuits
Division circuits
Precision measurement
Power control
There is a LSSOP case in which the instrumentation amplifier is packaged. Buffer amps of this type are called OPERATIONAL AMPLIFIER-types. A Tape & Reel (TR) case is used to deliver the buffer op amp. The number of terminations is approaching the 8 mark. The linear amplifier should be run at 3V at all times, so please keep that in mind when using it. In order to be more specific, this instrumentation amplifier is one of the types of Operational Amplifier devices. 8 pins are included on the operational amplifiers. As far as the input offset voltage is concerned, linear amplifier rates at 1mV. It is possible to operate this buffer amplifier from a supply current of 3mA . A linear amplifier like this has 2 circuits on it. In order for this buffer op amp to function, it should have a temperature of at least -40°C degrees Celsius. At temperatures greater than 105°C, Instrumentation amplifier should not be used. The electrical part is capable of being powered by a voltage of under 5.5V, which means that it can be used with any voltage supply.
BU7486SFV-E2 Features
supply voltage of 3V
BU7486SFV-E2 Applications
There are a lot of ROHM Semiconductor
BU7486SFV-E2 Instrumentational OP Amps applications.
Subtraction operation circuits
single/dual op amp sum and difference circuits
Integrator circuits
Differentiator circuits
Logarithmic operation circuits
Exponential operation circuits
Multiplication circuits
Division circuits
Precision measurement
Power control
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