For OMRON F3SJ-A Advanced Safety Light Curtain Replacement 2NPN Output 15 mm Resolution | 9 m Operating Range | 1445 mm to 1505 mm Protective Height
- Model
- F3SJ-A Series | F3SJ-A1445N20, F3SJ-A1505N20
Item specifics
- Series:
- F3SJ-A Series
- Resolution:
- 15 mm
- Scanning range:
- 0.2 m - 9 m
- Protective field height:
- 1445 mm - 1505 mm
- 2 Safety outputs (OSSD):
- 2 NPN
- Response time:
- 10 ms
- Connection type:
- M12
- Security level:
- PLe4
Review
Description
For OMRON F3SJ-A Advanced Safety Light Curtain Replacement Parameter
Brand | From network | DADISICK |
|
Models
|
F3SJ-A1445N20 | QMT74-20-1460-2AC |
|
F3SJ-A1505N20 | QMT76-20-1500-2AC | ||
Beam spacing | 15 mm | 20 mm | |
Protected altitude | 1445 mm, 1505 mm | 1460 mm, 1500 mm | |
Scanning range | 0.2 m - 9 m | 0.3 m - 10 m | |
Response time | 10 ms | ≤15 ms | |
Output method | 2 NPN | 2 NPN | |
Reliability and durability | IP65 | IP65 | |
Connector | M12 | M16 | |
Housing cross-section | 30 mm × 26 mm | 35 mm × 51 mm | |
Safety Certificate | CE, TÜV, UL, S-Mark | TÜV, UL, CE, RoHS, GB | |
We are able to reproduce the specific connection configuration of each brand with high level of accuracy. |
Product model display instructions
The brands and specifications shown on this page are for product selection only. Our safety light curtain is a safety part made by DADISICK, not official brand OMRON's products. DAIDSICK offer replacement for official brand products. We are not the owner of the brands. If you need to buy official brand products, please contact the brand official representative.
Product recommendations
QMT series safety light curtain
FAQ
How does the performance of safety light curtains hold up under conditions such as dust, moisture, and other environmental factors?
The protection level (IP code) of safety light curtains is an important indicator, representing the product's ability to resist dust and water. For applications with harsh environmental conditions, safety light curtains with higher protection levels can be selected to ensure they can withstand dust and moisture to a certain extent. Generally, the higher the protection level, the better the performance of the light curtains in harsh environments.
However, even with a higher protection level, safety light curtains may still be affected by factors such as dust and moisture. For example, excessive dust or dirt covering the light curtains may block some beams, leading to a decrease in detection accuracy. Additionally, moisture may cause the internal electronic components of the light curtains to become damp, thereby affecting their performance.
To address these challenges, some measures can be taken to improve the performance of safety light curtains in harsh environments. For instance, regularly clean the surface of the light curtains to ensure they are in good working condition; in humid environments, choose light curtains with moisture-resistant features or implement other moisture-proof measures; in environments with a lot of dust, select light curtains with dust-proof features or add dust covers and other protective measures.
Furthermore, the design and selection of safety light curtains are also crucial. When selecting, choose light curtains with appropriate parameters such as resolution, detection distance, and response time based on the actual application requirements. Additionally, consider factors such as the communication interface, ease of installation and maintenance to ensure they can be effectively integrated with other equipment and reduce the operating costs of the system.
Disclaimers
The product model information provided on this website is sourced from public channels, aiming to provide users with reference for product comparison and selection. This website does not guarantee the accuracy, completeness, or reliability of information, nor does it constitute a recommendation or recognition of any brand or company. Users should verify and bear corresponding risks when using the information provided on this website. This website shall not be liable for any loss or damage caused by the use of information on this website.