OP07CPZ Analog Devices, Op Amp, 600kHz, 8-Pin PDIP
Technical Document
Specifications
Brand
Analog DevicesMounting Type
Through Hole
Package Type
PDIP
Power Supply Type
Dual
Number of Channels per Chip
1
Pin Count
8
Typical Gain Bandwidth Product
600kHz
Typical Dual Supply Voltage
±12 V, ±15 V, ±5 V, ±9 V
Typical Slew Rate
0.3V/µs
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
+85 °C
Rail to Rail
No
Typical Voltage Gain
112 dB
Typical Input Voltage Noise Density
10.5nV/√Hz
Height
3.43mm
Dimensions
9.27 x 7.24 x 3.43mm
Length
9.27mm
Width
7.24mm
Product details
OP07/27/37 Precision Op Amps, Analog Devices
The Analog Devices OP07, OP27 and OP37 family of precision operational amplifiers feature very low input offset voltages, high open loop gain and very low noise. These devices are ideal for high gain instrumentation applications where high precision and good stability are required.
Low offset voltages generally eliminate the need for external nulling
Bias-current cancellation circuitry for low input bias and offset currents
Outstanding noise performance with low 1/f noise corner frequency
Operational Amplifiers, Analog Devices
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BD 0.895
Each (In a Tube of 50) (Exc. Vat)
BD 0.985
Each (In a Tube of 50) (inc. VAT)
50
BD 0.895
Each (In a Tube of 50) (Exc. Vat)
BD 0.985
Each (In a Tube of 50) (inc. VAT)
50
Technical Document
Specifications
Brand
Analog DevicesMounting Type
Through Hole
Package Type
PDIP
Power Supply Type
Dual
Number of Channels per Chip
1
Pin Count
8
Typical Gain Bandwidth Product
600kHz
Typical Dual Supply Voltage
±12 V, ±15 V, ±5 V, ±9 V
Typical Slew Rate
0.3V/µs
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
+85 °C
Rail to Rail
No
Typical Voltage Gain
112 dB
Typical Input Voltage Noise Density
10.5nV/√Hz
Height
3.43mm
Dimensions
9.27 x 7.24 x 3.43mm
Length
9.27mm
Width
7.24mm
Product details
OP07/27/37 Precision Op Amps, Analog Devices
The Analog Devices OP07, OP27 and OP37 family of precision operational amplifiers feature very low input offset voltages, high open loop gain and very low noise. These devices are ideal for high gain instrumentation applications where high precision and good stability are required.
Low offset voltages generally eliminate the need for external nulling
Bias-current cancellation circuitry for low input bias and offset currents
Outstanding noise performance with low 1/f noise corner frequency