MC34083 Datasheet PDF learn more.
Part number : MC34083
Functions : This is a kind of semiconductor, HIGH SLEW RATE WIDE BANDWIDTH JFET INPUT OPERATIONAL AMPLIFIERS.
Pin arrangement :
Package information :
Manufacturer : Motorola
The texts in the PDF file :
t High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifiers These devices are a new generation of high speed JFET input monolithic operational amplifiers. Innovative design concepts along with JFET technology provide wide gain bandwidth product and high slew rate. Well–matched JFET input devices and advanced trim techniques ensure low input offset errors and bias currents. The all NPN output stage features large output voltage swing, no deadband crossover distortion, high capacitive drive capability, excellent phase and gain margins, low open loop output impedance, and symmetrical source/sink AC frequency response. This series of devices is available in fully compensated or decompensated (AVCL≤2) and is specified over a commercial temperature range. They are pin compatible with existing Industry standard operational amplifiers, and allow the designer to easily upgrade the performance of existing designs. • Wide Gain Bandwidth: 8.0 MHz for Fully Compensated Devices Wide Gain Bandwidth: 16 MHz for Decompensated Devices • High Slew Rate: 25 V/µs for Fully Compensated Devices High Slew Rate: 50 V/µs for Decompensated Devices • High Input Impedance: 1012Ω • Input Offset Voltage: 0.5 mV Maximum (Single Amplifier) • Large Output Voltage Swing: –14.7 V to +14 V for Large Output Voltage Swing: VCC/VEE = ±15 V • Low Open Loop Output Impedance: 30 Ω @ 1.0 MHz • Low THD Distortion: 0.01% • Excellent Phase/Gain Margins: 55°/7.6 dB for Fully Compensated Devices Op Amp Function Single Dual Quad ORDERING INFORMATION Fully Compen- sated AVCL≥2 Compensated Operating Temperature Range MC34081BD MC34080BD MC34081BP MC34082P MC34080BP MC34083BP TA = 0° to +70°C MC34084DW MC34085BDW MC34084P MC34085BP TA = 0° to +70°C Package SO–8 Plastic DIP Plastic DIP SO–16L Plastic DIP Output 1 1 2 Inputs 1 – 3+1 VCC 4 5 Inputs 2 6 + –2 Output 2 7 NC 8 16 Output 4 – 4+ 15 14 Inputs 4 13 VEE + 12 3 – 11 Inputs 3 10 Ou [ … ]
MC34083 PDF File