Sensor

Approx. Rs 150 / PieceGet Latest Price

Product BrochureProduct Details:

Here’s a detailed overview of the IRS21864S high‑side/low‑side gate driver IC from International Rectifier (now Infineon):

�� IRS21864S – High‑Voltage Gate Driver IC �� Key Features & Usage Highlights

• Floating high-side channel: Supports bootstrap operation for high-side switching up to 600 V 

• Robust UVLO: Ensures reliable operation by preventing erratic gate output when supply voltages drop below safe levels 

• High drive current: ±4 A peak helps quickly charge/discharge gate capacitance, enabling fast switching 

• Matched timing: Ensures consistent turn-on/off between high and low sides—critical for synchronous applications .

• Logic level flexibility: Accepts 3.3 V or 5 V logic, compatible with most microcontrollers/FPGA outputs .

✅ Variants & Availability

• IRS21864PBF / STRPBF: Tape-and-reel packaging suited for automated assembly 

• Widely stocked by distributors like Digi‑Key (₹~200–₹250 per unit) .

��️ Typical Circuit Use

• Bootstrap capacitor between VCC and VB to supply the high-side.

• Logic inputs HIN and LIN control high‑ and low‑side switching.

• Outputs HO and LO drive corresponding MOSFET/IGBT gates.

• Supply voltage VCC in the 10–20 V range, typical logic reference at COM/VSS.

Would you like:

1. A datasheet PDF link?

2. A reference schematic or design tips?

3. Information on alternative drivers or comparison?

Let me know what you'd like next!

Approx. Rs 350 / PieceGet Latest Price

Product BrochureProduct Details:

 

The AD8692 from Analog Devices is a dual-channel, low-cost, precision CMOS op‑amp with rail‑to‑rail output, ideal for a variety of general-purpose applications. Here’s a breakdown:

�� Core Features

• Dual Amplifier (2‑channel) in 8‑pin MSOP or narrow SOIC packaging 

• Rail-to-Rail Output, operates single-supply from 2.7 V to 6 V 

• Bandwidth: 10 MHz gain-bandwidth product; Slew Rate: 5 V/µs 

• Ultra-low Offset: ~400 µV typical, drift 6 µV/°C max; Input Bias: ~1 pA max; Noise: 8 nV/√Hz 

• Low Distortion: 0.0006%; Output Drive: ~80 mA/ch, supply current ~0.95 mA/ch 

• Temperature Range: –40 °C to +125 °C; Automotive-grade (AEC‑Q100) options available 

⚙️ Applications

• Photodiode amplifiers & sensor interfaces

• Portable/battery-powered instruments

• Medical devices & multi-pole active filters

• Audio circuits, power amplifier controls, laser diode drivers

• High-impedance sensor signal chains

�� Packaging & Ordering Options

Available in Tape & Reel, Cut Tape, Digi-Reel formats through suppliers like DigiKey and Mouser 

✅ Pros & Cons

✅ Advantages:

• High precision and low noise for sensitive analog front-ends

• Rail-to-rail output accommodates single supply designs

• Good drive capability for loads, reference buffers

• Automotive-grade availability

⚠️ Considerations:

• Moderate GBP—unsuitable above ~1 MHz closed-loop if high gain needed

• Bias current of 1 pA is low, but ultra-low leakage (<fA) sensors might require specialized chopper amps

• No internal disable/shutdown feature

�� When To Choose AD8692

Pick the AD8692 if you need a dual, mid-speed, precision op‑amp that delivers excellent offset, noise, and bias current performance in a compact and affordable package. It excels in sensor signal conditioning, active filtering, or portable instrumentation under a moderate bandwidth requirement.

�� Next Steps

• Explore the datasheet for detailed specs, application circuits, and filter designs (offset drift, phase margins, etc.).

• Evaluation board: Check ADI’s EVAL-CN0276-SDPZ kit for quick prototyping.

• Alternatives: If you need higher bandwidth (≥50 MHz), lower distortion, or integrated features like disable, consider the ADA4528, OPA376, or AD8605 families.

Let me know if you'd like a comparison with those parts or need help integrating the AD8692 into your specific circuit!

Approx. Rs 400 / PieceGet Latest Price

Product BrochureProduct Details:

Here’s what I found about the AD829JR from Analog Devices:

��️ Overview

The AD829JR is a high-speed, low-noise video operational amplifier (voltage feedback type) by Analog Devices. It’s engineered for applications demanding fast, clean signal processing — perfect for video systems and high-speed ADC/DAC buffering .

⚙️ Key Specifications �� Features & Applications

• Externally compensated via the CCOMP pin, allowing compensation for stable operation across gains ranging from 1 to 20
  
  Performs well as a buffer for high-speed ADCs/DACs, due to its rapid settling and low noise Designed for professional video signals; optimized for NTSC, PAL, SECAM formats with low differential gain/phase through terminated 50 Ω or 75 Ω lines .

• Also suited for active filters, signal conditioning, and precision instrumentation where fast response and low distortion are needed .

✅ Summary

• AD829JR: high‑performance video op‑amp, now obsolete but still found via distributors.

• Performance: ~120 MHz BW, 230 V/µs slew, 1.7 nV/√Hz voltage noise.

• Applications: video signal buffering, ADC/DAC interfacing, fast instrumentation.

• Lifecycle: No longer produced, use AD829JRZ as equivalent.

Let me know if you’d like help finding cross‑references, alternate parts, sourcing options, or compensation network design examples!

Approx. Rs 100 / PieceGet Latest Price

Product BrochureProduct Details:

BAS40‑07,215 (by Nexperia / formerly NXP Semiconductors) — Summary & Specs What it is

The BAS40-07,215 is a dual Schottky diode array packaged in a small SOT143B (4‐lead) SMD package. 
It is described by Nexperia as a general‐purpose dual Schottky diode: high switching speed, low leakage, high breakdown voltage. 

Key Specifications (according to datasheet / manufacturer)

Here are the most relevant parameters:

Features & Applications

• Because it's a Schottky barrier diode, it has low forward voltage drop and fast switching—good for applications where speed or low loss is beneficial.

• The dual‐diode package allows two independent diodes in one small footprint—helpful in compact designs.

• Typical usage: high-speed switching, clamping, protection circuits, blocking diodes in SMPS, small signal rectification.

Design/Usage Considerations

• Since it’s rated 120 mA average per diode, it's suitable for low‐current rectification—not heavy power switching.

• Forward voltage drop (~1 V at 40 mA) means at higher currents the drop and hence power dissipation may increase; ensure thermal/power budget is acceptable.

• Leakage current ~10 µA at 40 V is low but if you’re designing very high‐impedance circuits, even that may matter.

• The 40 V reverse rating means you should not use it in circuits with higher reverse voltages (unless derated or additional protection used).

• Footprint: SOT143B is very small—good for tight PCB layouts—but soldering/handling must account for small size and thermal design.

Equivalent / Compatibility

If you are replacing or specifying this part, ensure that any substitute matches or exceeds the key specs: 40 V reverse, ~120 mA current rating, Schottky type, dual in small SMD package, low forward drop, fast switching.
Also check manufacturer’s recommended equivalents or version changes (since NXP → Nexperia, check marque/marking differences).

If you like, I can pull the full datasheet (PDF link) with pin‐outs, thermal resistances, typical curves, and footprint dimensions for your reference. Would you like that?

Approx. Rs 1,500 / PieceGet Latest Price

Product BrochureProduct Details:

 

Here’s what I found on the Omron EE-SPX303N photomicrosensor (slot-type sensor):

Overview & Key Features

• Type: Broad slot-type photomicrosensor (photomicrosensor), through-beam design with a 13 mm slot width 

• Operation Mode: Dark-ON (output activates when the beam is interrupted) with an NPN output .

• Robust Noise Immunity:

  • 30× better resistance to common noise compared to previous models

  • 10× better inverter noise resistance

  • Includes built-in reverse polarity protection for both power and output .

• Fast Response: Approximately 5 ms 

Electrical & Mechanical Specifications

• Supply Voltage: 12–24 V DC .

• Current Consumption: Approx. 15 mA max .

• Load Output: NPN open-collector capable of driving up to 80 mA at the load side .

• Operating Temp Range: –10 °C to +55 °C 

• Housing: Polycarbonate housing; compact dimensions—approx. 26 × 26 × 7.4 mm .

• Connector: Uses Omron’s system connector (detachable via EE-1001/1006/1009/1010 series accessories) 

Performance Summary Applications & Benefits

This sensor is ideal for detecting opaque objects passing through its slot—think of applications like:

• Position detection in mechanical setups

• Part counting or presence sensing on conveyor systems

• Material detection in packaging or assembly lines

Advantages include strong resistance to light interference, noise, and lightning-fast response under varied industrial conditions.

Accessories (Optional)

To complement the sensor, Omron offers:

• Connectors: EE-1001, EE-1009

• Connector + Cable: EE-1006 (standard), EE-1010 (with locking mech), EE-1010-R (robot cable)

• NPN/PNP Converter Cable: EE-2002 

If you’d like, I can help you explore compatible alternatives (e.g., with Light-ON mode like the EE-SPX403N), or compare this sensor with others from different brands based on your use case. Let me know what you’re planning!

Approx. Rs 300 / PieceGet Latest Price

Product BrochureProduct Details:

The KTY83‑150 is part of NXP’s KTY83 series of silicon temperature sensors—axial, glass‑encapsulated PTC devices designed for accurate and reliable temperature sensing.

�� Core Characteristics (for KTY83‑150)

• Packaging: Glass-sealed axial, SOD68/DO‑34

• Resistance @ 25 °C (R₍₂₅₎): 950–1050 Ω

• Operating Temp Range: –55 °C to +175 °C

• Temperature Coefficient: ~+0.76 %/°C

• Linearity: Nearly linear resistance vs. temperature

• Recommended Sensor Current: ~1 mA for best accuracy at high temps (>100°C) 

�� Additional Specs

• Thermal Time Constant: ~20 s in air, ~1 s in liquid

• Maximum Continuous Current: 10 mA at 25 °C, dropping to 2 mA at 175 °C Power Dissipation: Handle typical dissipation of a few mW/°C

• Long-Term Drift: Very low (∆R ≤1 Ω after 10,000 h at 175 °C) 

�� Pinout

• Pin 1 – Cathode

• Pin 2 – Anode 

✅ Applications

Ideal for precision temperature sensing and control in:

• Industrial & HVAC systems

• Consumer appliances

• Motor and power-system temperature monitoring

• Liquid/gas temperature measurements

�� Choosing the Right Variant

The KTY83 family includes variants like:

• /120, /121, /122, /150, etc.
  The number denotes the nominal R25 and tolerance (e.g., /150 = 1000 Ω ±5%). Your choice depends on the required accuracy and temperature range. 

✅ Quick Summary

• Type: Silicon PTC temperature sensor

• R25: ~1 kΩ

• Range: –55 °C to +175 °C

• Linearity: High

• Accuracy: ±1–3 °C typical

• Package: DO‑34 axial glass

Would you like help selecting between KTY83 variants, getting a datasheet PDF, or assistance designing it into your circuit (e.g. biasing, conversion circuitry)?