ADR4550

PRODUCTION

Ultra-Low-Noise, High-Accuracy 5.0V Voltage Reference

Data Sheet (Rev. F) Product Selection Table

Part Models: 8
1ku List Price: Starting From $2.89

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Part Details

Maximum temperature coefficient (TCV_OUT):

0.8 ppm/°C (D grade 0°C to 70°C)
1 ppm/°C (C grade 0°C to 70°C)
2 ppm/°C (B grade −40°C to +125°C)
4 ppm/°C (A grade −40°C to +125°C)

Output noise (0.1 Hz to 10 Hz):
1 μV p-p at V_OUT of 2.048 V typical
Initial output voltage error:
- B, C, D grade: ±0.02% (maximum)
Input voltage range: 3 V to 15 V

Operating temperature:

A grade and B grade: −40°C to +125°C
C grade and D grade: 0°C to +70°C

Output current: +10 mA source/−10 mA sink
Low quiescent current: 950 μA (maximum)
Low dropout voltage: 300 mV at 2 mA (V_OUT ≥ 3 V)
8-lead SOIC package and LCC package
AEC-Q100 qualified for automotive applications
Long-term drift: 8 ppm typical at 4500 hours

Part Models: 8
1ku List Price: Starting From $2.89

Documentation

Data Sheet 1

ADR4520/ADR4525/ADR4530/ADR4533/ADR4540/ADR4550: Ultralow Noise, High Accuracy Voltage References Data Sheet (Rev.F) 05/15/2024

Technical Articles 5

Selecting an ADC driver to achieve optimized signal chain performance 07/13/2015

Integration and Collaboration at the Heart of a High Performance Image Sensor Reference Design 06/01/2019

How to Achieve 7.5-Digit Accuracy in Instrumentation Applications: Part 1 07/09/2024

How to Achieve 7.5-Digit Accuracy in Instrumentation Applications: Part 2 07/09/2024

Increase Dynamic Range of SAR ADCs Using Oversampling 06/01/2015

ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.

Part Model	Pin/Package Drawing	Documentation	CAD Symbols, Footprints, and 3D Models
ADR4550ARZ	8-Lead SOIC	Material Declaration Reliablity Data	Ultra Librarian SamacSys
ADR4550ARZ-R7	8-Lead SOIC	Material Declaration Reliablity Data	Ultra Librarian SamacSys
ADR4550BRZ	8-Lead SOIC	Material Declaration Reliablity Data	Ultra Librarian SamacSys
ADR4550BRZ-R7	8-Lead SOIC	Material Declaration Reliablity Data	Ultra Librarian SamacSys
ADR4550CRZ	8-Lead SOIC	Material Declaration Reliablity Data	Ultra Librarian SamacSys
ADR4550CRZ-R7	8-Lead SOIC	Material Declaration Reliablity Data	Ultra Librarian SamacSys
ADR4550DEZ	LCC:CER LEADLESS CHIP CARR	Material Declaration Reliablity Data	Ultra Librarian SamacSys
ADR4550DEZ-R7	LCC:CER LEADLESS CHIP CARR	Material Declaration Reliablity Data	Ultra Librarian SamacSys

This is the most up-to-date revision of the Data Sheet.

Hardware Ecosystem

Parts	Product Life Cycle	Description
Positive Linear Regulators (LDO) 1
LT3040	RECOMMENDED FOR NEW DESIGNS	20V, 200mA, Ultralow Noise, Ultrahigh PSRR Precision DAC/Reference Buffer

Tools & Simulations

Signal Chain Designer - BETA

Signal Chain Designer is a web-based tool designed to create and simulate complex precision signal chains. See your circuit’s performance before you commit to your PCB: transfer function, noise, power consumption, input range, and DC error. Quickly experiment with different parts and architectures. Signal chains can be exported to LTspice for further analysis.

Reference Designs

18-Bit, 5 MSPS Signal Chain

18-Bit, 5 MSPS, Data Acquisition System Optimized for AC Performance

View Detailed Reference Design

Features and Benefits

18-bit, 5MSPS Data Acquisition
Low Power
LVDS Outputs

Part Used

Design & Integration Tools

CN0277 Design & Integration Files
1731 kB

CN-0393 Simplified Schematic Diagram

Bank Isolated, 2-Channel, 16-Bit, 500 kSPS, Simultaneous Sampling Signal Chain Featuring μModule Data Acquisition System

View Detailed Reference Design

Features and Benefits

2-channel, 16-bit 500kSPS simultaneous sampling
Bank isolated
Complete data acquisition system

Part Used

Design & Integration Tools

CN0393 Design & Integration Files
3.3 M

Videos

VIDEO Â· 2017-01-26 02:28

Reducing Challenges in the Precision Conversion Design Cycle

Robust Loop Powered Configurable Transmitter Circuit

Configurable 4-20 mA Loop Powered Transmitter/Receiver using a Micropower Instrumentation Amplifier

View Detailed Reference Design

Features and Benefits

4-20mA Transmitter/Receiver
Loop Powered
Configurable

Part Used

Design & Integration Tools

CN0314 Design & Integration Files
1248 kB

16-Bit Accurate, ±10 V Voltage Source

16-Bit, Linear, Ultra Stable, Low Noise, Bipolar ±10 V DC Voltage Source

View Detailed Reference Design

Features and Benefits

Bipolar ±10V dc voltage source
16-bit resolution
Low noise

Part Used

Resources

AD576x, AD578x, AD579x GitHub no-OS Driver Source Code

AD5760, AD578x, AD579x IIO DAC GitHub Linux Driver Source Code

Design & Integration Tools

CN0318 Design & Integration Files
1053 kB

±1 LSB Linear 16-Bit Buffered Voltage Output DAC

16-Bit Single-Supply Buffered Voltage Output Digital-to Analog Conversion with Less Than ±1 LSB Integral and Differential Nonlinearity

View Detailed Reference Design

Features and Benefits

16-Bit Precision DAC
Low power (<25mW)
Single supply
Less than +/-1LSB INL and DNL

Part Used

Resources

AD5760, AD578x, AD579x IIO DAC GitHub Linux Driver Source Code

AD5446 IIO DAC Linux Driver

Design & Integration Tools

CN0348 Design & Integration Files
716 kB

CN0513 Board

20-Bit, 1.8 MSPS, ±2.5 ppm INL, Low Drift, High Accuracy Data Acquisition Solution

View Detailed Reference Design

Features and Benefits

Data acquisition solution fully characterized over 0°C to 70°C
Guaranteed 20-bit no missing codes
INL: ±2 ppm, DNL: ±0.25 ppm
Throughput: 1.8 MSPS
Offset error drift: ±3.5 ppm/°C; gain error drift: ±6 ppm/°C
SNR: 98 dB at G = 1, 92 dB at G = 10, f_IN = 1 kHz
THD: −120 dB at G = 1, −116 dB at G = 10, f_IN = 1 kHz
Oversampled dynamic range: 102 dB at 900 kSPS, OSR = 2
Software programmable bipolar input ranges (±1 V to ±10 V)
- Allows single-ended and differential signals
CMRR: 92 dB typical
GΩ input impedance allows direct interface with sensors
Ease of use features reduce system power and complexity
ADC Input overvoltage clamp protection sinks up to 50 mA
On-board 5 V reference and buffer
First conversion accurate, no latency/pipeline delay
Fast conversion time allows low SPI clock rates
SPI-/QSPI-/MICROWIRE-/DSP-compatible serial interface

Part Used

Design & Integration Tools

CN0513 Design Files
12.44 M

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