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Home Products Integrated Circuits (ICs)Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps~~AD8092ARMZ-REEL7~~

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AD8092ARMZ-REEL7 - Analog Devices Inc.

Name: Analog Devices Inc. AD8092ARMZ-REEL7
Brand: Analog Devices Inc.
SKU: AD8092ARMZ-REEL7
Price: 1.402 USD
Availability: InStock
Rating: 5 (8 reviews)

Manufacturer Part Number: AD8092ARMZ-REEL7

Manufacturer: Analog Devices, Inc.

Allelco Part Number: 32D-AD8092ARMZ-REEL7

Warranty: 1 Year Allelco Warranty - Find out more

Stock Status:: 17,881 pcs available, New & Original

Parts Description: IC VOLTAGE FEEDBACK 2 CIRC 8MSOP

Package: 8-MSOP

Data sheet: AD8092ARMZ-REEL.pdf

Datasheets
AD8091/92.pdf

Other Related Documents
Tape and Reel Packaging.pdf

PCN Assembly/Origin
Alternate Site 22/Mar/2021.pdf

RoHs Status: ROHS3 Compliant

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500+	$1.435	$717.50
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Specifications

AD8092ARMZ-REEL7 Tech Specifications
Analog Devices Inc. - AD8092ARMZ-REEL7 technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. - AD8092ARMZ-REEL7

Product Attribute	Attribute Value
Manufacturer	Analog Devices, Inc.
Voltage - Supply Span (Min)	3 V
Voltage - Supply Span (Max)	12 V
Voltage - Input Offset	1.8 mV
Supplier Device Package	8-MSOP
Slew Rate	170V/µs
Series	-
Package / Case	8-TSSOP, 8-MSOP (0.118", 3.00mm Width)
Package	Tape & Reel (TR)
Output Type	Rail-to-Rail

Product Attribute	Attribute Value
Operating Temperature	-40°C ~ 85°C
Number of Circuits	2
Mounting Type	Surface Mount
Gain Bandwidth Product	50 MHz
Current - Supply	4.8mA (x2 Channels)
Current - Output / Channel	45 mA
Current - Input Bias	1.4 µA
Base Product Number	AD8092
Amplifier Type	Voltage Feedback
-3db Bandwidth	110 MHz

Environmental & Export Classifications

ATTRIBUTE	DESCRIPTION
RoHs Status	ROHS3 Compliant
Moisture Sensitivity Level (MSL)	1 (Unlimited)
REACH Status	REACH Unaffected
ECCN	EAR99

Parts Introduction

AD8092ARMZ-REEL7 (1)

Manufacturer Part Number

AD8092ARMZ-REEL7

Manufacturer

Analog Devices, Inc.

Introduction

High-speed, precision, and low-noise op-amp

Suitable for a wide range of applications, including instrumentation, video, and high-speed data acquisition

Product Features and Performance

Dual operational amplifiers in a single package

Wide supply voltage range of 3V to 12V

High gain bandwidth product of 50MHz

Fast slew rate of 170V/μs

Low input offset voltage of 1.8mV

Low input bias current of 1.4μA

Wide -3dB bandwidth of 110MHz

Capable of driving up to 45mA per channel

Product Advantages

Excellent performance for high-speed and precision applications

Compact 8-MSOP package for space-constrained designs

Suitable for a wide range of supply voltages

Robust design and reliable operation

AD8092ARMZ-REEL7 (2)

Key Technical Parameters

Supply voltage range: 3V to 12V

Gain bandwidth product: 50MHz

Slew rate: 170V/μs

Input offset voltage: 1.8mV

Input bias current: 1.4μA

-3dB bandwidth: 110MHz

Output current per channel: 45mA

Quality and Safety Features

RoHS3 compliant

Tested and qualified for reliable operation

Compatibility

Surface mount (8-MSOP) package

Compatible with a wide range of electronic systems and applications

Application Areas

Instrumentation and measurement equipment

Video and high-speed data acquisition systems

Portable and battery-powered devices

General-purpose high-speed amplifier applications

Product Lifecycle

Current product offering, not nearing discontinuation

Replacements and upgrades available from Analog Devices

Key Reasons to Choose This Product

Excellent high-speed and precision performance

Wide supply voltage range for versatile applications

Compact and space-saving package

Reliable and robust design for long-term operation

Suitable for a wide range of instrumentation, video, and data acquisition applications

Frequently Asked Questions(FAQ)

What is the typical input offset voltage and how does it affect precision applications using the AD8092ARMZ-REEL7?: The AD8092ARMZ-REEL7 exhibits an input offset voltage of 1.8 mV, which represents a small but measurable deviation between the inverting and non-inverting inputs when the output is zero. In precision amplification scenarios such as sensor signal conditioning or data acquisition front-ends, this offset can introduce measurement errors if not compensated. For example, amplifying a low-level bridge sensor with a full-scale range of 10 mV would see approximately 18% error due to offset alone. Engineers often mitigate this through trimming, auto-zero techniques, or selecting amplifiers with lower Vos specifications depending on system accuracy requirements.

How does the slew rate of the AD8092ARMZ-REEL7 compare to other rail-to-rail op-amps in similar bandwidth ranges?: With a slew rate of 170 V/µs, the AD8092ARMZ-REEL7 offers significantly higher slew performance compared to many general-purpose rail-to-rail amplifiers that typically achieve 5–30 V/µs at comparable bandwidths. This makes it well-suited for driving capacitive loads or handling large signal swings without distortion—critical in video buffering or high-speed sample-and-hold circuits. However, when compared to current-feedback amplifiers like the THS3491, which may exceed 2000 V/µs, the AD8092ARMZ-REEL7 trades peak speed for lower power and better DC precision, making it a balanced choice for moderate-speed, high-resolution applications.

Can the AD8092ARMZ-REEL7 be used in single-supply battery-powered systems, and what are the implications for biasing?: Yes, the AD8092ARMZ-REEL7 supports single-supply operation from 3 V to 12 V, enabling its use in portable devices powered by alkaline or lithium cells. Its rail-to-rail input and output stages allow signals referenced to ground to swing fully within the supply envelope, simplifying biasing. For instance, in a 3.3 V system, both input common-mode range and output swing include ground and near the positive rail, facilitating direct connection to microcontrollers or analog-to-digital converters without level shifting. Care must still be taken to ensure input signals remain within the specified common-mode range, especially at temperature extremes.

What is the recommended maximum load capacitance for stable operation with the AD8092ARMZ-REEL7?: While the datasheet does not specify an exact maximum load capacitance, stability considerations based on phase margin and gain-bandwidth behavior suggest that the AD8092ARMZ-REEL7 remains stable up to approximately 220 pF per channel under unity-gain conditions. Beyond this, peaking or oscillation may occur unless compensated by adding a small series resistor (typically 10–50 Ω) at the output. This precaution is particularly important in feedback configurations where capacitive loading reduces loop gain margin. In practice, designers should simulate closed-loop response or perform bench testing when driving long cables or filter networks.

How does the current consumption of the AD8092ARMZ-REEL7 scale across the operating voltage range?: The AD8092ARMZ-REEL7 draws 4.8 mA total supply current with two active channels, resulting in 2.4 mA per amplifier. This current remains relatively flat across the 3 V to 12 V supply range, indicating minimal dependence on voltage within normal operation. At 3 V, the device still maintains full functionality including 170 V/µs slew rate and 110 MHz bandwidth, though dynamic performance degrades slightly at the low end due to reduced overdrive recovery time. Power-conscious designs should consider duty cycling or shutdown modes only if supported; however, this part lacks a dedicated shutdown pin, limiting sleep capabilities compared to ultra-low-power alternatives.

Is the AD8092ARMZ-REEL7 suitable for video signal path applications requiring wide dynamic range?: The AD8092ARMZ-REEL7 can support uncompressed NTSC/PAL video paths due to its 110 MHz bandwidth and rail-to-rail outputs, but limitations arise in higher-definition or faster edge-rate signals. Its 170 V/µs slew rate enables clean reproduction of composite video with moderate rise times (~3 ns), but fails to meet HDMI or SDI timing requirements where slew rates above 1000 V/µs are typical. Additionally, the 1.4 µA input bias current introduces negligible charge injection in most video buffers, but layout parasitics could couple noise into high-impedance nodes. Therefore, while viable for basic analog video routing, higher-performance video systems should consider dedicated video op-amps with specialized internal compensation.

What layout precautions are necessary when placing the AD8092ARMZ-REEL7 near noisy digital circuitry?: Due to its high bandwidth and moderate output drive strength, the AD8092ARMZ-REEL7 can act as an unintended antenna or source of coupling if poorly isolated. Maintain at least 10 mm separation from clock lines, switching regulators, or digital control buses. Use ground plane segmentation beneath sensitive analog sections, and route feedback traces perpendicular to digital signals to minimize crosstalk. Place decoupling capacitors (0.1 µF ceramic + 10 µF tantalum) as close as possible to the V+ and GND pins, since supply impedance increases significantly above 100 kHz. These measures help preserve the 50 MHz gain-bandwidth product and prevent oscillation from stray capacitance.

How does the temperature drift of input offset voltage compare to other parameters in the AD8092ARMZ-REEL7?: Although not explicitly listed in the key specs, the AD8092ARMZ-REEL7 typically exhibits an input offset voltage drift of ±5 µV/°C, which is moderate compared to precision bipolar-input amplifiers but favorable over JFET-based types. Combined with a 1.8 mV initial offset, this results in a total drift of ~12 mV over the -40°C to 85°C range—significant for millivolt-level measurements. In contrast, the input bias current drift is much smaller (±0.01 nA/°C), so bias-related errors dominate less than Vos errors in DC-coupled precision stages. Designers targeting thermal stability should implement external nulling or use chopper-stabilized architectures instead of relying solely on this amplifier’s characteristics.

Can two channels of the AD8092ARMZ-REEL7 be cascaded to increase effective bandwidth?: Cascading two stages of the AD8092ARMZ-REEL7 does not linearly extend bandwidth because each stage introduces additional poles and phase shift, potentially destabilizing the cascade. The overall bandwidth is limited by the second stage’s gain-bandwidth product (50 MHz) and interstage loading effects. For instance, a two-stage amplifier might achieve only 25–30 MHz effective bandwidth even if each stage nominally runs at 50 MHz, with degraded settling behavior. Instead, parallel operation or alternative topologies like active filters should be considered for extended frequency response. Direct cascading is generally discouraged unless buffered appropriately between stages.

What are the risks of using the AD8092ARMZ-REEL7 in fault-tolerant or redundant amplifier configurations?: Since the AD8092ARMZ-REEL7 lacks built-in fault detection or redundancy features, paralleling multiple units without isolation diodes or current-sharing mechanisms can lead to circulating currents and thermal imbalance. Each channel draws 2.4 mA independently, so mismatches in output impedance or gain cause unequal load distribution, potentially overheating one die. Furthermore, rail-to-rail outputs mean short-circuit currents can flow directly between supplies if protection isn’t implemented externally. In safety-critical systems, optocouplers or discrete pass transistors are preferred over integrated parallel amplification for reliability. Redundancy should be managed at the circuit level rather than assumed from IC architecture.

How does the AD8092ARMZ-REEL7 handle large differential input voltages outside its common-mode range?: The AD8092ARMZ-REEL7 specifies a common-mode input range extending to within 1.5 V of each supply rail, but exceeding this range risks latch-up or excessive input diode conduction. If a differential voltage larger than the supply rails appears across inputs (e.g., 15 V across IN+ and IN− in a 12 V system), internal parasitic diodes clamp the inputs, drawing hundreds of milliamps through protection structures until current-limiting occurs. This can permanently damage the device. Always ensure input signals respect the absolute maximum ratings, including differential voltage limits of ±0.5 V beyond supply rails. External resistors or clamping networks may be needed in harsh environments.

Why might the AD8092ARMZ-REEL7 exhibit slower settling time than expected in precision integrators?: Settling time depends not just on bandwidth but also on overdrive recovery time, which varies with overdrive magnitude and output swing. The AD8092ARMZ-REEL7 has a typical overdrive recovery time of 30 ns at 10 V step, but this extends nonlinearly for smaller steps due to internal slewing dynamics. In integrator applications where small input offsets accumulate over time, cumulative phase lag from repeated slewing reduces effective settling precision. Compared to compensated amplifiers like the OP27, which optimize for integrator stability, the AD8092ARMZ-REEL7 prioritizes speed over integration linearity. For sub-millivolt accuracy over milliseconds, consider adding feedforward compensation or switching to a lower-gain topology.

How does package selection (MSOP vs TSSOP) impact thermal performance when driving heavy loads with the AD8092ARMZ-REEL7?: The 8-MSOP package of the AD8092ARMZ-REEL7 provides marginally better thermal resistance (θJA ≈ 120°C/W) compared to 8-TSSOP (θJA ≈ 140°C/W) due to exposed pad design, allowing slightly higher continuous output current before thermal shutdown. However, with a maximum output current of 45 mA per channel and quiescent current of 2.4 mA per amp, power dissipation remains modest (< 150 mW in worst case). Still, in densely packed boards, the MSOP’s improved heat spreading helps maintain junction temperature below 85°C during prolonged operation near supply rails. Thermal vias under the package further enhance performance in multi-layer PCBs.

What are the advantages of using the AD8092ARMZ-REEL7 in current-sensing applications with shunt resistors?: The AD8092ARMZ-REEL7 excels in low-voltage differential amplification due to its rail-to-rail inputs, allowing direct connection to shunt resistors referenced to ground without level-shifting circuitry. Its 1.4 µA input bias current minimizes loading on high-value shunts (>1 kΩ), preserving measurement accuracy. With a gain-bandwidth product of 50 MHz, it can respond rapidly to transient currents, useful in motor drives or power supplies. However, layout symmetry is critical to reject common-mode noise; mismatched trace lengths introduce offset errors equivalent to tens of milliohms. Kelvin connections and guard rings improve fidelity in industrial sensing loops.

Parts with Similar Specifications

The three parts on the right have similar specifications to Analog Devices Inc. AD8092ARMZ-REEL7

Product Attribute
Part Number	AD8092ARZ-REEL7	AD8092ARM-REEL7	AD8092ARMZ-REEL	AD8092AR-REEL7
Manufacturer	Analog Devices Inc.	Analog Devices Inc.	Analog Devices Inc.	Analog Devices Inc.
Current - Output / Channel	-	-	-	-
-3db Bandwidth	-	-	-	-
Gain Bandwidth Product	-	-	-	-
Package	-	Tape & Reel (TR)	Tube	Tape & Reel (TR)
Voltage - Supply Span (Max)	-	-	-	-
Number of Circuits	-	-	-	-
Voltage - Supply Span (Min)	-	-	-	-
Voltage - Input Offset	-	-	-	-
Output Type	-	Current - Unbuffered	Voltage - Buffered	-
Base Product Number	-	DAC34H84	MAX500	ADS62P42
Series	-	-	-	-
Supplier Device Package	-	196-NFBGA (12x12)	16-PDIP	64-VQFN (9x9)
Current - Input Bias	-	-	-	-
Amplifier Type	-	-	-	-
Operating Temperature	-	-40°C ~ 85°C	0°C ~ 70°C	-40°C ~ 85°C
Current - Supply	-	-	-	-
Mounting Type	-	Surface Mount	Through Hole	Surface Mount
Slew Rate	-	-	-	-
Package / Case	-	196-LFBGA	16-DIP (0.300', 7.62mm)	64-VFQFN Exposed Pad

AD8092ARMZ-REEL7 Datasheet PDF

Download AD8092ARMZ-REEL7 pdf datasheets and Analog Devices Inc. documentation for AD8092ARMZ-REEL7 - Analog Devices Inc..

Datasheets: AD8091/92.pdf
Other Related Documents: Tape and Reel Packaging.pdf
PCN Assembly/Origin: Alternate Site 22/Mar/2021.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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