M8 Flush type all-metal proximity Sensor (plug-in type)
- Product Type:KJT-J8MQS
- Installation Method:Flush
- Detection distance:1mm/2mm
- Working voltage:10-36VDC
- Output Mode:NPN/PNP NO/NC
- Ambient temperature:-25℃~+70℃
- Outlet method:Connector M8,3-pin
KJT All-Metal proximity switch detects various metal objects, fast, no contact, extremely long life, reliable action, stable performance, fast frequency response, long service life, strong anti-interference ability, waterproof, shockproof, corrosion resistance and other characteristics . The integrated stainless steel shell including the sensing surface is absolutely free from any liquid or gas (cannot corrode stainless steel) during the entire working period. The material at the sensing surface is relatively thick, so it has better pressure resistance. The full metal housing makes them more mechanically resistant than traditional sensors. Therefore, it overcomes the weakness of traditional inductive sensors that are easily damaged.
● Detect various metal objects | DC 2 NO |
● With surge, overload, short circuit and reverse polarity protection functions | DC 2 NC |
● Shell material: Nickel copper alloy | DC 3NPN NO |
● Protection grade IP67(IEC) | DC 3NPN NC |
● Ambient temperature:-25℃~+70℃ | DC PNP NO |
DC 3 PNP NC | |
AC 2 NO | |
AC 2 NC |
Product Model | KJT-J8MQS |
Installation method | Flush |
Detection distance | 1mm/2mm |
Working temperature | -25℃~+70℃ |
Specifications | M8*1*45 |
Operating Voltage | 10-36VDC / 90-250VAC |
Ripples | <10% |
No-load current | <10mA |
Maximum load current | 200mA |
Voltage drop | ≤1.5V |
On-off level | 250Hz |
Hysteresis | <15(Sr) |
Overload protection current | 180mA |
Short circuit protection | YES |
Repeat accuracy | <3.0%(Sr) |
Temperature drift | <10%(Sr) |
Response time | 0.5ms |
Connection method | Connector M12,4-pin |
Protection level | IP67 |
Sensing surface material | Stainless steel |
Shell Material | Stainless steel |
EMC | RFI>3V/M / EFT>1KV / ESD>4KV(contact) |
Shock/Vibration | IEC 60947-5-2,Part7.4.1 / IEC 60947-5-2,Part7.4.2 |
2023-12-01