Texas Instruments OP495GS
- Part Number:
- OP495GS
- Manufacturer:
- Texas Instruments
- Ventron No:
- 5552495-OP495GS
- Description:
- passive components in stock
- Datasheet:
- OP495GS
The OP495GS is passive components in stock , it is part of series. they are designed to work as passive components.OP495GS with pin details manufactured by TI. The OP495GS is available in Package,it is part of the electronic component Chips.that includes Series. they are designed to operate as passive components.it is with Operating Temperature .OP495GS with original stock manufactured by TI. The OP495GS is available in Package.Generally IC chips offer Mounting Style features such as SMD/SMT, Package Case of OP495GSis designed to work in , it's Operating Temperature is .The OP495GS is available in Package, is part of the passive components and belong to capacitor.OP495GS with EDA / CAD Models manufactured by TI. The OP495GS is available in Package, is part of the capacitor.The OP495GS is passive components with package manufactured by TI. The OP495GS is available in Package, is part of the passive components in stock.
OP495GS More Descriptions
Non-RoHS Compliant R-PDSO-G16 TIN LEAD Tube op amp buffer circuit 10.3mm 0.03muA -18V 85kHz
OP Amp Quad General Purpose to O/P ±18 Volt/36 Volt 16-Pin SOIC Watt
Operational Amplifier, 4 Func, 1200uV Offset-Max, CMOS, PDSO14
Op Amp Quad GP R-R O/P ±18V/36V 16-Pin SOIC W Tube
Rail-to-rail output swing combined with dc accuracy are the key features of the OP495 quad and OP295 dual CBCMOS operational amplifiers. By using a bipolar front end, lower noise and higher accuracy than those of CMOS designs have been achieved. Both input and output ranges include the negative supply, providing the user with zero-in/zero-out capability. For users of 3.3 V systems such as lithium batteries, the OP295/OP495 are specified for 3 V operation. Maximum offset voltage is specified at 300 µV for 5 V operation, and the open-loop gain is a minimum of 1000 V/mV. This yields performance that can be used to implement high accuracy systems, even in single-supply designs. The ability to swing rail-to-rail and supply 15 mA to the load makes the OP295/OP495 ideal drivers for power transistors and H bridges. This allows designs to achieve higher efficiencies and to transfer more power to the load than previously possible without the use of discrete components. For applications such as transformers that require driving inductive loads, increases in efficiency are also possible. Stability while driving capacitive loads is another benefit of this design over CMOS rail-to-rail amplifiers. This is useful for driving coax cable or large FET transistors. The OP295/OP495 are stable with loads in excess of 300 pF. The OP295 and OP495 are specified over the extended indus-trial (-40°C to 125°C) temperature range. The OP295 is available in 8-lead PDIP and 8-lead SOIC_N surface-mount packages. The OP495 is available in 14-lead PDIP and 16-lead SOIC_W surface-mount packages. Applications Battery-operated instrumentation Servo amplifiers Actuator drives Sensor conditioners Power supply control
OP Amp Quad General Purpose to O/P ±18 Volt/36 Volt 16-Pin SOIC Watt
Operational Amplifier, 4 Func, 1200uV Offset-Max, CMOS, PDSO14
Op Amp Quad GP R-R O/P ±18V/36V 16-Pin SOIC W Tube
Rail-to-rail output swing combined with dc accuracy are the key features of the OP495 quad and OP295 dual CBCMOS operational amplifiers. By using a bipolar front end, lower noise and higher accuracy than those of CMOS designs have been achieved. Both input and output ranges include the negative supply, providing the user with zero-in/zero-out capability. For users of 3.3 V systems such as lithium batteries, the OP295/OP495 are specified for 3 V operation. Maximum offset voltage is specified at 300 µV for 5 V operation, and the open-loop gain is a minimum of 1000 V/mV. This yields performance that can be used to implement high accuracy systems, even in single-supply designs. The ability to swing rail-to-rail and supply 15 mA to the load makes the OP295/OP495 ideal drivers for power transistors and H bridges. This allows designs to achieve higher efficiencies and to transfer more power to the load than previously possible without the use of discrete components. For applications such as transformers that require driving inductive loads, increases in efficiency are also possible. Stability while driving capacitive loads is another benefit of this design over CMOS rail-to-rail amplifiers. This is useful for driving coax cable or large FET transistors. The OP295/OP495 are stable with loads in excess of 300 pF. The OP295 and OP495 are specified over the extended indus-trial (-40°C to 125°C) temperature range. The OP295 is available in 8-lead PDIP and 8-lead SOIC_N surface-mount packages. The OP495 is available in 14-lead PDIP and 16-lead SOIC_W surface-mount packages. Applications Battery-operated instrumentation Servo amplifiers Actuator drives Sensor conditioners Power supply control
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