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Evaluation Boards - Op Amps

Image Part Number Description / PDF Quantity Rfq
DC596A

DC596A

Analog Devices, Inc.

LT1813CDD - DUAL, LOW POWER, HIG

3
MAX44248EVKIT#

MAX44248EVKIT#

Maxim Integrated

EVALUATION KIT FOR THE MAX44248

7
LME49713MABD

LME49713MABD

LME49713 - HIGH PERFORMANCE, HIG

0
ISL28213MSOPEVAL2Z

ISL28213MSOPEVAL2Z

Intersil (Renesas Electronics America)

EVALUATION BOARD FOR ISL28213

0
ALM2402FQ1EVM

ALM2402FQ1EVM

Texas Instruments

EVAL BOARD

4
DC1639A

DC1639A

Analog Devices, Inc.

LTC6360 - HIGH SPEED OP AMP WITH

2
ISL1571IRZ-EVAL

ISL1571IRZ-EVAL

Intersil (Renesas Electronics America)

EVAL BOARD FOR ISL1571IRZ

0
ISL28133CSENSEV1Z

ISL28133CSENSEV1Z

Intersil (Renesas Electronics America)

BOARD EVAL FOR ISL28133

0
DC1147A-B

DC1147A-B

Analog Devices, Inc.

LTC6404-2 DEMO CIRCUIT

0
DC593A

DC593A

Analog Devices, Inc.

LT1637CDD - OVER-THE-TOP, MICROP

2
OPA462EVM

OPA462EVM

Texas Instruments

EVAL BOARD

7
LME49710MABD

LME49710MABD

Texas Instruments

BOARD EVALUATION LME49710MA

1
ISL28414TSSOPEVAL1Z

ISL28414TSSOPEVAL1Z

Intersil (Renesas Electronics America)

EVALUATION BOARD FOR ISL28414

0
DC2551A-C

DC2551A-C

Analog Devices, Inc.

LT1997 L CONFIGURABLE PRECISION

2
EVAL-LTC2065-TQFN

EVAL-LTC2065-TQFN

Analog Devices, Inc.

EVALUTION BOARD FOR LTC2065

8
ISL28248MSOPEVAL1Z

ISL28248MSOPEVAL1Z

Intersil (Renesas Electronics America)

EVAL BOARD FOR ISL28248 MSOP

0
DC2398A

DC2398A

Analog Devices, Inc.

LTC6373 DEMO BOARD

15
EVAL-LTC2068-TQFN

EVAL-LTC2068-TQFN

Analog Devices, Inc.

EVAL BOARD FOR LTC2068

6
OPA837DBVEVM

OPA837DBVEVM

Texas Instruments

EVAL BOARD FOR OPA837

3
DC1116A

DC1116A

Analog Devices, Inc.

LTC6103 CURRENT SENSE DEMO BOARD

3

Evaluation Boards - Op Amps

1. Overview

Evaluation boards for operational amplifiers (op-amps) are specialized hardware platforms designed to test and validate the performance of op-amp integrated circuits (ICs) in various circuit configurations. These boards provide a controlled environment for engineers to assess key parameters such as gain stability, noise performance, and power efficiency. In modern electronics development, op-amp evaluation boards are critical for accelerating design cycles, reducing time-to-market, and ensuring compliance with industry standards.

2. Main Types and Functional Classification

Type Functional Features Application Examples
General-Purpose Op-Amp Evaluation Boards Basic configuration support, wide supply voltage range, adjustable gain settings Consumer electronics prototyping
High-Speed Op-Amp Evaluation Boards Supports GHz-range signal processing, low parasitic capacitance design Communication infrastructure testing
Low-Noise Precision Evaluation Boards Ultra-low input-referred noise, laser-trimmed resistors Medical imaging equipment development
Power Op-Amp Evaluation Boards High current output capability, thermal management features Industrial motor control systems

3. Structure and Components

Typical evaluation boards consist of:

  • PCB substrate with controlled impedance traces
  • Socketed op-amp IC for easy replacement
  • Onboard power management (LDO regulators, voltage references)
  • Standardized interface connectors (SMB, SMA, or header pins)
  • Adjustable compensation networks (trim pots, discrete component footprints)
  • Thermal vias and heatsinking structures
  • Calibration-grade passive components (0.1% tolerance resistors, NP0 capacitors)

4. Key Technical Specifications

Parameter Importance
Gain Bandwidth Product (GBWP) Determines maximum operating frequency
Slew Rate Impacts transient response performance
Power Supply Rejection Ratio (PSRR) Measures immunity to supply voltage variations
Input Offset Voltage Affects DC precision accuracy
Quiescent Current Key factor in low-power designs
Operating Temperature Range Determines environmental robustness

5. Application Areas

Major industry applications include:

  • Industrial automation (sensor signal conditioning)
  • Telecommunications (RF front-end amplification)
  • Medical devices (ECG signal amplification)
  • Automotive (lidar sensor interfaces)
  • Consumer electronics (audio preamplifiers)
  • Aerospace (precision measurement systems)

6. Leading Manufacturers and Representative Products

Manufacturer Product Example Key Features
Texas Instruments OPA847EVM 3.6GHz GBWP, voltage feedback architecture
Analog Devices AD8021-EB 24-bit audio precision, low distortion
STMicroelectronics STEVAL-OPA354 Low-voltage operation, rail-to-rail output
NXP Semiconductors LM7171EVM High-speed buffer applications

7. Selection Guidelines

Key considerations for selection:

  1. Match board specifications to target application requirements
  2. Verify compatibility with existing development tools (oscilloscopes, signal generators)
  3. Evaluate available onboard calibration features
  4. Assess documentation quality and reference designs
  5. Consider ecosystem support (accessory boards, software tools)
  6. Check component availability and lifecycle status

8. Industry Trends Analysis

Current trends shaping op-amp evaluation board development:

  • Integration of digital control interfaces (I2C, SPI)
  • Increased focus on energy-efficient designs for IoT applications
  • Development of modular evaluation systems with plug-and-play capability
  • Adoption of machine learning algorithms for automated performance optimization
  • Miniaturization for portable test equipment applications
  • Enhanced EMI/RFI shielding for automotive test environments

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