Omron E2A-S08KS02-WP-C1 2M: Inductive Sensor NPN
The Technical Specifications of Omron E2A-S08KS02-WP-C1 2M inductive Sensor NPN:
- Sensor Head: M8
- Mounting type: Flush
- Sensing Distance: 2mm
- Output Type: NPN
- Operation mode: NO
- Power Source: DC, 3-wire
- Connection Method: Pre-wired, Cable Length 2M
- Thread Length: 27mm
- Cable Specifications: PVC
Omron E2A-S08KS02-WP-C1 2M Inductive Sensor NPN Technical Specifications:
Sensor Head | M8 |
Mounting type | Flush |
Sensing Distance | 2 mm |
Output type | NPN |
Switching | NO |
Power source | DC, 3-wire |
Connection method | Pre Wired |
Standard sensing object | 8 × 8 × 1 mm |
Barrel Length | Short body |
Differential travel | Differential travel 10% max. of sensing distance |
Insulation resistance | 50 MΩ min. (at 500 VDC) between current carry parts and case |
Voltage influence | ±1% max. of sensing distance in rated voltage range ±15% |
Ambient humidity | Operating: 35% to 95%, Storage: 35% to 95% |
Cable length | 2 m |
Overall Length | 40 mm |
Thread Length | 27 mm |
Power Supply Voltage | 12-24 VDC |
Response time | 1,500 Hz |
Ambient air temperature | Operating: −40°C to 70°C, Storage: −40°C to 85°C (with no icing or condensation) |
Cable Specifications | PVC |
Current consumption | 10 mA max |
Protection circuit | Output reverse polarity protection, Power source circuit reverse polarity protection, Surge suppressor, Short-circuit protection |
Indicator | Operation indicator (Yellow LED) |
Degree of protection | IP67/IP69K |
Material housing | Stainless steel |
Looking for the Omron E2A-S08KS02-WP-C1 2M Inductive Sensor NPN at IndMALL Automation, available at great prices. This sensor has an M8 head, a flush mounting type, and senses up to 2mm, NO (Normally Open) switching, DC 3-wire source, connects easily with a pre-wired 2M cable, short barrel length, a total length of 40mm, and a thread length of 27mm, responds quickly with a 1,500Hz response time, PVC cable is durable and reliable. This sensor is perfect for various industrial needs requiring accurate and consistent proximity detection.