Banner Engineering SM2A312D Mani-Beam® 312 Photoelectric Sensor, Rectangular Shape, 380 mm Sensing, Infrared Sensing Beam
Photoelectric Proximity Sensors
13456
MFG #: SM2A312D
BANNER®
172.39000
/ ea
- Catalog Number: SM2A312D
- Connection Type: Cable
- Country of Origin: USA
- Enclosure Type: NEMA 1/2/3/3S/4/4X/12/13/IP67
- Environmental Conditions: 90% at 50 deg C
- Frequency Rating: 50/60 Hz
- Gross Weight Per Pack: 1 lb
- Light Source: LED
- Operating Temperature: -20 to 70 °C
- Sensing Method: Diffuse
- Series: 312
- Size: 65.8 mm L x 12 mm W x 33.3 mm H
- Standards: CE Marked, cCSAus Certified, cULus Listed , RoHS Complaint
- UNSPSC: 39121528
- UPC 11: 66248825965
- UPC 12: 66248825965
- Voltage Rating: 24/240 VAC
- Stock Status: NORMALLY STOCKED
- Brand: BANNER®
- Manufacturer: Banner Engineering Corp.
- Output Type: Switch
- Response Time: 8 ms
- Sensing Beam: Infrared
- Sensing Range: 380 mm
- Shape: Rectangular
Banner Engineering Mani-Beam® Photoelectric Sensor, Series: 312, Rectangular, Diffuse Sensing Method, 380 mm Sensing Range, Infrared Sensing Beam, 8 ms Response, Switch Output, 24/240 VAC, 50/60 Hz, Cable, LED Light Source, 65.8 mm L x 12 mm W x 33.3 mm H, NEMA 1/2/3/3S/4/4X/12/13/IP67, -20 to 70 deg C Operating, Environmental Conditions: 90% at 50 deg C
- Features
Rectangular with M18 barrel housing style; Protected against transient voltages, false pulse on power-up; Controls are located on the rear panel of the sensor and are protected by a gasketed, clear acrylic cover; Totally encapsulated, O-ring sealing, stainless steel screws construction; Overload conditions can destroy ac MINI-BEAM sensors. Directly wiring sensor without load series, across hot and neutral will damage sensor (except emitter models); Low-voltage use requires careful analysis of the load to determine if the sensor's leakage current or on-state voltage will interfere with proper operation of the load; The false-pulse protection feature may cause momentary drop-out of the load when the sensor is wired in series or parallel with mechanical switch contacts; Controls are located on rear panel of sensor and protected by a gasketed, clear acrylic co |
Protected against transient voltages, false pulse on power-up |
Controls are located on the rear panel of the sensor and are protected by a gasketed, clear acrylic cover |
Totally encapsulated, O-ring sealing, stainless steel screws construction |
Overload conditions can destroy ac MINI-BEAM sensors. Directly wiring sensor without load series, across hot and neutral will damage sensor (except emitter models) |
Low-voltage use requires careful analysis of the load to determine if the sensors leakage current or on-state voltage will interfere with proper operation of the load |
The false-pulse protection feature may cause momentary drop-out of the load when the sensor is wired in series or parallel with mechanical switch contacts |
Controls are located on rear panel of sensor and protected by a gasketed, clear acrylic cove |
5 mA minimum load current, 300 mA to 50 deg C, 100 mA to 70 deg C maximum steady-state load capability, 3 A for 1 sec (non-repetitive), 10 A For 1 cycle (non-repetitive) inrush capability |
Less than or equal to 5 V at 300 mA load and less than or equal to 10 V at 15 mA load on-state voltage drop |
Self-contained diffuse mode photoelectric sensor |
Less than 1.7 mA off-state output leakage |
8 ms on/off response time |
880 nm infrared LED sensing beam |
Acrylic lens, 90 percent at 50 deg C (non-condensing) relative humidity |
2 m cable connection |
Thermoplastic reinforced VALOX enclosure |
Light/dark operate, solid-state AC switch output |
18 mm barrel diameter |
Self-Contained |