AD595AQ Analog Devices, Thermocouple Amplifier 15kHz, 5 V, 14-Pin CDIP

Technical Reference
Legislation and Compliance
Non Compliant
Specifications
Attribute Value
Power Supply Type Dual, Single
Package Type CDIP
Mounting Type Through Hole
Typical Single Supply Voltage 5 V
Pin Count 14
Typical Dual Supply Voltage ±15V
Minimum Operating Temperature -55 °C
Maximum Operating Temperature +125 °C
Typical Gain Bandwidth Product 15kHz
Width 6.6mm
Height 3.76mm
Dimensions 19.55 x 6.6 x 3.76mm
Length 19.55mm
75 In stock for FREE next working day delivery
Price Each (In a Tube of 25)
£ 12.622
(exc. VAT)
£ 15.146
(inc. VAT)
Units
Per unit
Per Tube*
25 +
£12.622
£315.55
*price indicative
Related Products
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals (AC power line frequency) are present.
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals (AC power line frequency) are present.
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals (AC power line frequency) are present.
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals (AC power line frequency) are present.