3030AN25
Proximity Sensor Inductive 2-Pin
Quantity | Unit Price(USD) | Ext. Price |
---|---|---|
1 | $149.150 | $149.15 |
200 | $57.720 | $11,544.00 |
500 | $55.691 | $27,845.50 |
1000 | $54.689 | $54,689.00 |
Inventory:5,284
- 90-day after-sales guarantee
- 365 Days Quality Guarantee
- Genuine Product Guarantee
- 7*24 hours service quarantee
-
Part Number : 3030AN25
-
Package/Case : Barrel
-
Manufacturer : Honeywell Sensing and Productivity Solutions
-
Components Classification : Position, Proximity, Speed (Modules)
-
Datesheet : 3030AN25 DataSheet (PDF)
-
Series : 3030A
Overview of 3030AN25
The 3030AN25 is a Proximity Sensor Inductive optimized for high-performance operations. It provides excellent performance for various applications, including analog and digital signal switching.
Pinout
The 3030AN25 pinout refers to the configuration and function of each pin in its -2 package type. This package typically includes a diagram showing the layout of the pins when viewed from the top down with pins named sequentially. Each pin on the 3030AN25 has a specific role such as power supply input, ground connection, or signal interface. The pinout details are crucial for integrating this component into a circuit as they ensure correct connections for optimal device performance. Designers and engineers must refer to the datasheet provided by the manufacturer to get accurate information regarding each pin's function and electrical characteristics.
Features
- No features mentioned in the product description.
Applications
- No applications mentioned in the product description.
Advantages and Disadvantages
Advantages
- No advantages mentioned in the product description.
Disadvantages
- No disadvantages mentioned in the product description.
- No disadvantages mentioned in the product description.
Equivalents
For similar functionalities, consider these alternatives to the 3030AN25:
- No equivalents mentioned in the product description.
Frequently Asked Questions
Q: What is the purpose of the 3030AN25?
A: The 3030AN25 is a Proximity Sensor Inductive designed for various applications.
Q: What are the key features of the 3030AN25?
A: No specific features mentioned in the product description.
Q: How does the 3030AN25 work?
A: The 3030AN25 is an Inductive Proximity Sensor that detects the presence or absence of objects.
Q: What are some common applications for the 3030AN25?
A: No specific applications mentioned in the product description.
Specifications
The followings are basic parameters of the part selected concerning the characteristics of the part and categories it belongs to.
Series | 3030 | Package | Box |
Product Status | Active | Type | VRS (Passive) |
Output Type | Sine Wave | Actuator Material | Ferrous Metals, Gear Tooth |
Termination Style | Connector | Frequency | 15 kHz |
Operating Temperature | -55°C ~ 120°C (TA) | Package / Case | Barrel, Stainless Steel |
Base Product Number | 3030A |
Warranty & Returns
Warranty, Returns, and Additional Information
-
QA & Return Policy
Parts Quality Guarantee: 365 days
Returns for refund: within 90 days
Returns for Exchange: within 90 days
-
Shipping and Package
Shipping:For example, FedEx, JP, UPS, DHL,SAGAWA, or YTC.
Parts Packaging Guarantee: Featuring 100% ESD anti-static protection, our packaging incorporates high toughness and superior buffering capabilities.
-
Payment
For example, channels like VISA,MasterCard,Western Union,PayPal,MoneyGram,Rakuten Pay and more.
If you have specific payment channel preferences or requirements, please get in touch with our sales team for assistance.
MRMS211H
Describing MRMS211H, it's a magnetic sensor designed for board mounting, employing an AMR switch technology
A1121LUA-T
Chopper-Stabilized Hall-Effect Switch for Precision Applications
5SE1-6N26
Switch Snap Action N.O./N.C. SPDT Pin Plunger 5A 250VAC 30VDC 4.73N Screw Mount Wire Lead
A1101LLHLT-T
Hall Effect Sensor for Automotive Applications
A1122LLHLT-T
Hall-Effect Switch featuring Chopper Stabilization for Enhanced Precision
BU52025G-TR
Bipolar Detection Hall Effect Sensor designed for easy installation onto circuit boards to accurately sense magnetic fields