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Home Products Integrated Circuits (ICs)Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps~~AD8610AR-REEL7~~

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AD8610AR-REEL7 - Analog Devices Inc.

Name: Analog Devices Inc. AD8610AR-REEL7
Brand: Analog Devices Inc.
SKU: AD8610AR-REEL7
Availability: InStock
Rating: 5 (8 reviews)

Manufacturer Part Number: AD8610AR-REEL7

Manufacturer: Analog Devices, Inc.

Allelco Part Number: 98D-AD8610AR-REEL7

Warranty: 1 Year Allelco Warranty - Find out more

Stock Status:: 6,946 pcs available, New & Original

Parts Description: IC OPAMP JFET 1 CIRCUIT 8SOIC

Package: 8-SOIC

Data sheet: AD8610AR-REEL7.pdf

Datasheets
AD8610, 20 Datasheet.pdf

PCN Obsolescence/ EOL
Multiple Devices 29/Jan/2014.pdf

Other Related Documents
Tape and Reel Packaging.pdf

Design Resources
Precision, AC Reference Signal Attenuator Using AD.pdf

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In stock: 6946

Specifications

AD8610AR-REEL7 Tech Specifications
Analog Devices Inc. - AD8610AR-REEL7 technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. - AD8610AR-REEL7

Product Attribute	Attribute Value
Manufacturer	Analog Devices, Inc.
Voltage - Supply Span (Min)	10 V
Voltage - Supply Span (Max)	26 V
Voltage - Input Offset	85 µV
Supplier Device Package	8-SOIC
Slew Rate	60V/µs
Series	-
Package / Case	8-SOIC (0.154", 3.90mm Width)
Package	Tape & Reel (TR)
Output Type	-

Product Attribute	Attribute Value
Operating Temperature	-40°C ~ 125°C
Number of Circuits	1
Mounting Type	Surface Mount
Gain Bandwidth Product	25 MHz
Current - Supply	3mA
Current - Output / Channel	45 mA
Current - Input Bias	3 pA
Base Product Number	AD8610
Amplifier Type	J-FET

Environmental & Export Classifications

ATTRIBUTE	DESCRIPTION
Moisture Sensitivity Level (MSL)	1 (Unlimited)
ECCN	EAR99

Frequently Asked Questions(FAQ)

What is the typical input bias current of the AD8610AR-REEL7 and how does it impact precision applications?: The AD8610AR-REEL7 exhibits an input bias current of 3 pA, which is characteristic of J-FET input stages. This extremely low leakage current minimizes offset errors in high-impedance sensor interfaces, such as pH probes or piezoelectric sensors, where even femtoampere-level currents can introduce significant measurement inaccuracies over time. When designing for sub-microvolt accuracy, this parameter becomes critical in determining the maximum allowable source impedance to avoid drift.

How does the slew rate and gain bandwidth product of the AD8610AR-REEL7 compare when driving a capacitive load?: With a slew rate of 60 V/µs and a gain bandwidth product of 25 MHz, the AD8610AR-REEL7 is well-suited for moderate-speed signal conditioning. However, under heavy capacitive loads, the phase margin degrades significantly, potentially causing instability. For example, driving a 100-pF load may reduce effective bandwidth by 40% and introduce peaking in the frequency response. Designers should ensure adequate phase compensation or limit output swings during fast transitions.

Can the AD8610AR-REEL7 be used in single-supply configurations above 10V?: Yes, the AD8610AR-REEL7 supports supply voltages from 10V to 26V, making it suitable for higher single-supply designs such as 12V or 15V systems. In these cases, proper input common-mode range must be maintained—typically within 2V of either rail—so signal levels near ground require careful biasing. This extends its use beyond traditional dual-supply instrumentation into industrial control and communication equipment.

How does the voltage input offset of the AD8610AR-REEL7 affect calibration requirements in precision gain stages?: The AD8610AR-REEL7 has a typical input offset voltage of 85 µV, which translates to approximately 1.7 mV at a gain of 20. In precision amplification chains, this initial offset can propagate through multiple stages, necessitating either software calibration or external trimming components. For gains exceeding 50, automatic nulling circuits or laser-trimmed alternatives may be preferred unless post-processing correction is feasible.

What are the thermal considerations when operating the AD8610AR-REEL7 continuously at full output current?: At maximum output current (45 mA per channel) and a 24V supply, the AD8610AR-REEL7 can dissipate up to 1.08W in continuous operation. With an 8-SOIC package having a junction-to-ambient thermal resistance of about 100°C/W, this results in a temperature rise of ~108°C above ambient. Therefore, prolonged full-load operation requires either airflow, heatsinking, or reduced duty cycle to stay within the -40°C to +125°C operating range without derating performance.

How does the AD8610AR-REEL7 compare to the OPA627AU in terms of power consumption and speed trade-offs?: While both devices share similar architectures, the AD8610AR-REEL7 consumes 3mA compared to the OPA627AU’s typically lower quiescent current (~2.5mA), but offers comparable bandwidth (25MHz vs. 100MHz). This makes the AD8610AR-REEL7 more suitable for medium-speed, low-power applications like battery-operated data acquisition, whereas the OPA627AU favors high-speed, low-noise environments where power efficiency is secondary.

Is the AD8610AR-REEL7 suitable for driving ADC inputs directly in industrial sensor front-ends?: The AD8610AR-REEL7 can drive ADC inputs effectively if matched to the ADC’s input range and impedance. Its 45-mA output current ensures strong drive capability over moderate trace lengths, and the 25-MHz bandwidth supports sampling rates up to several hundred kSPS in many 12-bit SAR ADCs. However, for simultaneous sampling or Σ-Δ converters requiring precise timing, additional buffering or level shifting may be needed to preserve linearity and minimize settling time.

What precautions should be taken when cascading multiple AD8610AR-REEL7 stages for high-gain amplification?: Cascading multiple AD8610AR-REEL7 stages increases total gain but also amplifies noise and offset voltages cumulatively. For instance, three stages each with 10x gain result in 1000x overall gain but multiply input offset by the same factor. Additionally, stability margins decrease due to cumulative phase shift. It's advisable to use feedback networks with compensation capacitors at each stage or opt for a single-stage design with lower closed-loop gain and higher bandwidth.

How does the moisture sensitivity level (MSL) of the AD8610AR-REEL7 influence handling procedures during PCB assembly?: The AD8610AR-REEL7 has an MSL rating of 1, indicating it is not sensitive to moisture-induced damage and can withstand unlimited storage time under standard conditions without baking. This simplifies handling in high-volume production environments and reduces pre-assembly preparation steps, lowering cost and improving throughput compared to higher MSL components that require strict humidity-controlled storage.

Can the AD8610AR-REEL7 replace the TLE2081IDR in a legacy automotive ECU redesign?: The TLE2081IDR is a precision bipolar amplifier with better low-temperature offset stability, while the AD8610AR-REEL7 uses a J-FET input for lower bias current. Although both operate over -40°C to +125°C, the AD8610AR-REEL7 may exhibit greater offset drift over temperature in extreme cold conditions. Substitution is possible only if input impedance and DC accuracy requirements are relaxed, and long-term drift budgets allow for increased uncertainty.

What is the recommended layout practice to maintain the 25-MHz bandwidth of the AD8610AR-REEL7 on a PCB?: To preserve the AD8610AR-REEL7’s gain bandwidth product of 25 MHz, minimize parasitic capacitance at the feedback node and keep traces short between the op-amp and surrounding passive components. Ground planes beneath the IC and adjacent to feedback resistors reduce loop inductance and electromagnetic coupling. Avoid placing noisy digital signals parallel to analog traces, as crosstalk can degrade high-frequency performance despite adequate power supply filtering.

How does the supply current of the AD8610AR-REEL7 impact battery life in portable medical devices?: Consuming 3 mA at 12V translates to 36 mW of static power draw. In a device powered by a 3-cell Li-ion pack (11.1V nominal), this represents approximately 3.2% of total energy per hour in idle mode. While acceptable for intermittent-use devices, continuous monitoring applications might prefer lower-current amplifiers unless sleep modes or duty cycling mitigate average consumption effectively.

Are there any known limitations when using the AD8610AR-REEL7 with high-refresh-rate video signal paths?: The AD8610AR-REEL7 lacks the bandwidth and slew rate required for most video applications—typical RGB signals demand >500 MHz bandwidth and >200 V/µs slew rates. At 25 MHz and 60 V/µs, the AD8610AR-REEL7 would cause visible distortion in composite video or SDI signals. Thus, it is inappropriate for direct video buffer or line driver roles but may serve auxiliary functions like gain adjustment in control loops unrelated to imaging.

What role does the base product number play when sourcing substitutes for the AD8610AR-REEL7?: The base product number "AD8610" identifies all variants within Analog Devices’ family sharing core architecture, enabling interchangeability in non-critical applications. However, packaging differences (e.g., SOIC vs. TSSOP) and performance specs vary across models. Designers should verify key parameters like GBW, supply range, and pinout against their system requirements before substituting, ensuring compatibility with existing footprints and thermal profiles.

How does the operating temperature range of the AD8610AR-REEL7 affect reliability in harsh environments?: Operating from -40°C to +125°C ensures robust functionality in aerospace, automotive, and industrial settings. However, at elevated temperatures, input offset voltage and bias current can drift beyond datasheet specifications, affecting calibration stability. Long-term reliability testing shows no degradation in package integrity within this range, but users should monitor parametric shifts through qualification cycles if mission-critical accuracy is required.

Can the AD8610AR-REEL7 be used in current-sense amplifier topologies with shunt resistors?: Yes, the AD8610AR-REEL7’s low input bias current (3 pA) minimizes loading on high-side shunts, enabling accurate voltage measurement across small resistances like 0.1Ω without significant error. With a 60-V/µs slew rate, it handles rapid current transients common in motor drives or power supplies. Care must be taken to ensure common-mode voltage stays within limits, especially when sensing near the positive rail.

Parts with Similar Specifications

The three parts on the right have similar specifications to Analog Devices Inc. AD8610AR-REEL7

Product Attribute
Part Number	AD8610ARZ-REEL7	AD8609ARZ-REEL7	AD8610ARZ-REEL	AD8610AR-REEL
Manufacturer	Analog Devices Inc.	Analog Devices Inc.	Analog Devices Inc.	Analog Devices Inc.
Operating Temperature	-	-40°C ~ 85°C	0°C ~ 70°C	-40°C ~ 85°C
Current - Supply	-	-	-	-
Supplier Device Package	-	196-NFBGA (12x12)	16-PDIP	64-VQFN (9x9)
Package / Case	-	196-LFBGA	16-DIP (0.300', 7.62mm)	64-VFQFN Exposed Pad
Voltage - Supply Span (Min)	-	-	-	-
Slew Rate	-	-	-	-
Output Type	-	Current - Unbuffered	Voltage - Buffered	-
Mounting Type	-	Surface Mount	Through Hole	Surface Mount
Current - Input Bias	-	-	-	-
Voltage - Input Offset	-	-	-	-
Gain Bandwidth Product	-	-	-	-
Number of Circuits	-	-	-	-
Series	-	-	-	-
Current - Output / Channel	-	-	-	-
Amplifier Type	-	-	-	-
Package	-	Tape & Reel (TR)	Tube	Tape & Reel (TR)
Voltage - Supply Span (Max)	-	-	-	-
Base Product Number	-	DAC34H84	MAX500	ADS62P42

AD8610AR-REEL7 Datasheet PDF

Download AD8610AR-REEL7 pdf datasheets and Analog Devices Inc. documentation for AD8610AR-REEL7 - Analog Devices Inc..

Datasheets: AD8610, 20 Datasheet.pdf
PCN Obsolescence/ EOL: Multiple Devices 29/Jan/2014.pdf
Other Related Documents: Tape and Reel Packaging.pdf
Design Resources: Precision, AC Reference Signal Attenuator Using AD.pdf

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Customer Reviews

Evaluation: 10 Articles

Dani***alkerTech

Jun 1, 2026

Product works, but setup took more effort than expected. Once configured the MCU ran reliably, although documentation support felt older compared with newer platforms. Fine for maintenance projects.
Yuki***aka88

May 26, 2026

信号通信プロジェクトでこのRS-485トランシーバーを使用しました。設置は簡単で、長距離ケーブルでも通信は安定していました。消費電力も、以前使用していたものより低くなっています。
Stev***aker

May 20, 2026

Solid diode for power rectification. Works well in switching circuits.
Bran***Lewis

May 11, 2026

Compact FPGA with good performance. Suitable for basic signal processing tasks.
Oliv***arris

May 7, 2026

Reliable I/O expander. Works well in embedded control applications.
Jess***Jones

Apr 17, 2026

It offers good value for the price, and the specifications match the description. I’ve been using it for two days with no issues, and I’ll definitely buy it again if I need it in the future.
Mich***Smith

Apr 17, 2026

Shipping was on time, the component pins are neatly aligned, and I tested 10 of them with a multimeter—all readings were within the specified range. Highly recommended.
Aman***arris

Apr 3, 2026

It was great—the entire process, from placing the order to receiving the package, went very smoothly. The components were consistent, the price was fair, and I had a very pleasant shopping experience.
Mike***nch

Apr 3, 2026

Better than expected! The resistance and capacitance readings were spot-on, and it passed the test on the first try. The service was reliable, and the packaging was thoughtful—I highly recommend it.
Daic***K.

Mar 23, 2026

Very good. No issue after long time testing.

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AD8610AR-REEL7

Analog Devices Inc.
98D-AD8610AR-REEL7

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