AD1380JD Analog Devices Inc, AD1380JD Datasheet
AD1380JD
Specifications of AD1380JD
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AD1380JD Summary of contents
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FEATURES Complete sampling 16-bit ADC with reference and clock 50 kHz throughput ±1/2 LSB nonlinearity Low noise SHA: 300 μV p-p 32-lead hermetic DIP Parallel output Low power: 900 μW APPLICATIONS Medical and analytical instrumentation Signal processing Data acquisition systems ...
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AD1380 TABLE OF CONTENTS Specifications..................................................................................... 3 Absolute Maximum Ratings............................................................ 5 ESD Caution.................................................................................. 5 Theory of Operation ........................................................................ 6 Description of Operation ................................................................ 7 Gain Adjustment .......................................................................... 7 Zero Offset Adjustment............................................................... 7 Timing............................................................................................ 7 REVISION HISTORY 6/05—Rev Rev. D ...
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... No Missing Codes (Guaranteed) DIGITAL OUTPUTS (TTL-COMPATIBLE) All Codes Complementary Clock Frequency POWER SUPPLY REQUIREMENTS Analog Supplies Digital Supply +15 V Supply Current −15 V Supply Current +5 V Supply Current Power Dissipation AD1380JD Min Typ Max 16 ±2.5 ±5 ± TTL-compatible, trailing edge of positive 50 ns (min) pulse ...
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... Logic 0 = 0.8 V max; Logic 1 = 2.0 V min for inputs. Logic 0 = 0.4 V max; Logic 1 = 2.4 V min for digital outputs. 2 Tested on ±10 V and +10 V ranges. 3 Adjustable to zero. 4 Full-scale range. 5 Guaranteed but not 100% production tested. AD1380JD Min Typ Max −25 to +85 Rev Page AD1380KD Min ...
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ABSOLUTE MAXIMUM RATINGS Table 2. Parameter Supply Voltage Logic Supply Voltage Analog Ground to Digital Ground Analog Inputs (Pin 6, Pin 7, Pin 31) Digital Input Output Short-Circuit Duration to Ground Sample/Hold Data Junction Temperature Storage Temperature Lead Temperature (Soldering, ...
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AD1380 THEORY OF OPERATION A 16-bit ADC partitions the range of analog inputs into 2 discrete ranges or quanta. All analog values within a given quantum are represented by the same digital code, usually assigned to the nominal midrange value. ...
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DESCRIPTION OF OPERATION On receipt of a CONVERT START command, the AD1380 converts the voltage at its analog input into an equivalent 16-bit binary number. This conversion is accomplished as follows: the 16-bit successive-approximation register (SAR) has its 16-bit outputs ...
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AD1380 DIGITAL OUTPUT DATA Parallel data from TTL storage registers is in negative true form (Logic and Logic 0 = 2.4 V). Parallel data output coding is complementary binary for unipolar ranges and comple- mentary offset ...
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CALIBRATION (14-BIT RESOLUTION EXAMPLES) External zero adjustment and gain adjustment potentiometers, connected as shown in Figure 3 and Figure 4, are used for device calibration. To prevent interaction of these two adjustments, zero is always adjusted first and then gain. ...
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AD1380 +15V 10kΩ 300kΩ TO 100kΩ GAIN ADJ –15V 0.01μF +15V + 1μF + 1μF –15V NOTE: ANALOG ( ) AND DIGITAL ( Figure 9. Analog and Power Connections for Unipolar Input Range +15V 10kΩ ...
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APPLICATIONS High performance sampling analog-to-digital converters like the AD1380 require dynamic characterization to ensure that they meet or exceed their desired performance parameters for signal processing applications. Key dynamic parameters include signal-to-noise ratio (SNR) and total harmonic distortion (THD), which ...
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... MIN 0.023 (0.58) 0.014 (0.36) ORDERING GUIDE Model Max Linearity Error AD1380JD 0.006% FSR AD1380KD 0.003% FSR © 2005 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. C00764–0–6/05(D) 1.728 (43.89) MAX ...