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<p>Pressure Sensors</p><p>Compatible with Multiple Network Protocols</p><p>-80.0</p><p>-100.0</p><p>-60.0</p><p>-40.0</p><p>-20.0</p><p>0</p><p>A</p><p>C</p><p>B</p><p>A</p><p>AP-N Series</p><p>Network Compatible Pressure Sensor</p><p>AP-N Series</p><p>NEW</p><p>Pressure Sensors that</p><p>Combine Network Support and</p><p>Ease of Use</p><p>Laser Sensor Photoelectric Sensor Fiberoptic Sensor Pressure Sensor</p><p>LV-NEO PS-NEO FS-NEO AP-NEO</p><p>PLC</p><p>KEYENCE offers communication units compatible with</p><p>open field networks in use around the world.</p><p>EtherCAT® is registered trademark and patented technology, licensed by Beckhoff Automation GmbH, Germany.</p><p>All models feature an integrated</p><p>heat sink to reduce the</p><p>temperature of the amplifier and</p><p>minimize the stress experienced</p><p>by its internal components.</p><p>Compatible with a variety of</p><p>open field networks</p><p>Reliable even when using multiple sensors</p><p>EtherNet/IPTM</p><p>DeviceNetTM</p><p>CC-Link</p><p>EtherCAT®</p><p>NEW</p><p>Communication unit</p><p>2</p><p>Sensor Networking Advantages</p><p>Reduced installation time</p><p>Simplified Wiring</p><p>Improved predictive maintenance</p><p>and error identification</p><p>Reduced Downtime</p><p>Improved work efficiency</p><p>Centralized Management</p><p>Simplified adjustments</p><p>Batch Recalibration</p><p>Only one cable is needed to connect and</p><p>communicate with a PLC. This eliminates the time</p><p>consuming tasks associated with cable management</p><p>and wiring.</p><p>Easily predict when maintenance is needed by</p><p>monitoring changes in pressure readings over time.</p><p>When an error occurs, quickly identify the errant</p><p>sensor at a glance, significantly reducing downtime.</p><p>Sensor calibration and configuration data can be set</p><p>using a PLC. This simplifies the process of setting</p><p>multiple sensors and the replacement of damaged</p><p>units.</p><p>Simplified</p><p>Wiring</p><p>Reduced</p><p>Downtime</p><p>Centralized</p><p>Management</p><p>Batch</p><p>Recalibration</p><p>ERROR</p><p>Threshold</p><p>Threshold</p><p>Threshold</p><p>Zero Wiring</p><p>Automatic ConsolidationVisual Confirmation</p><p>Sensor information can be automatically</p><p>consolidated, making logging data and performing</p><p>analysis simpler and error-free. This greatly improves</p><p>work efficiency.</p><p>3</p><p>Network compatibility for a wide</p><p>variety of pressure sensor applications</p><p>Suction Confirmation</p><p>Electronic component suction confirmation</p><p>Checking the degree of wear on suction pads. The</p><p>peak pressure values during suction decline as the</p><p>suction pads accumulate wear. Using the peak bottom</p><p>hold function, declines in pressure values can be</p><p>checked easily via a network.</p><p>Usage ExamplePeak Bottom Hold Function</p><p>The sensors automatically sample the peak pressure value</p><p>during suction and hold the lowest value sampled.</p><p>Peak bottom hold value</p><p>Pressure value when suction on</p><p>-80.0</p><p>-70.0</p><p>-60.0</p><p>-50.0</p><p>-40.0</p><p>-30.0</p><p>-20.0</p><p>-10.0</p><p>0</p><p>(kPa)</p><p>Peak pressure</p><p>value</p><p>Threshold</p><p>Without Suction With Suction Vacuum Break</p><p>Immediately after replacement: -80.0 kPa</p><p>Six months later: -70.0 kPa</p><p>One month later: -80.0 kPa</p><p>Five months later: -75.0 kPa</p><p>Suction Pad</p><p>Replacement</p><p>Hold function maintains minimum and maximum pressure values</p><p>The sensors automatically monitor pressure values, and the highest and lowest values can be displayed.</p><p>Suction pad wear monitoring</p><p>Conventionally, suction pads are replaced on a regular basis regardless of the</p><p>amount of wear. Now the degree of wear on the pads can be checked by monitoring</p><p>pressure values via a network, so that the pads can be replaced at the appropriate</p><p>time.</p><p>Batch modification of setting values during tooling changes</p><p>Tooling changes used to require considerable time spent modifying the settings of</p><p>multiple sensors one by one. Using network communication, all settings can be</p><p>written at once.</p><p>4</p><p>Source Pressure Confirmation</p><p>Blow Pressure Management</p><p>Seating Confirmation</p><p>Leak Pressure Management</p><p>Simplifies startup and routine check procedures</p><p>Source pressure management data, typically checked by</p><p>operators when starting work, can now be easily</p><p>managed via an industrial network.</p><p>Energy saving methods</p><p>Centrally manage variations in source pressure among</p><p>different processes, potentially saving energy.</p><p>Prevention of improper seating</p><p>By analyzing pressure data, slight pressure differences</p><p>between states of “proper suction” and “improper suction”</p><p>can be detected. Even possible when checking whether</p><p>thin or delicate targets are seated properly. This simplifies</p><p>the process of determining an appropriate set value.</p><p>Traceability</p><p>Data concerning leak volumes and leak speeds can be</p><p>logged over a network and managed, helping to enable</p><p>analysis of defects.</p><p>Previously,</p><p>inspections were</p><p>conducted visually.</p><p>Compressor source pressure confirmation</p><p>Removal of foreign particles from metallic components</p><p>Metallic component seating</p><p>confirmation</p><p>Bottle leak inspection</p><p>Robot suction</p><p>conveyance</p><p>Improves quality by monitoring supplied pressure</p><p>The pressure of a supplied gas must be monitored to</p><p>maintain quality in the process environment. Solenoid</p><p>valves can be opened and closed at appropriate times by</p><p>utilizing the pressure data via a network.</p><p>Analysis of defective workpieces</p><p>By keeping track of the blow pressure used to remove</p><p>particles, it is possible to identify unusual values when</p><p>defective workpieces are discovered.</p><p>5</p><p>The Industry’s Widest Variety</p><p>Compatible with various open field networks</p><p>Open field network</p><p>Communication Units NU Series</p><p>EtherNet/IPTM</p><p>Digital</p><p>Fiberoptic Sensor</p><p>FS-NEO Series</p><p>More than</p><p>100 different types</p><p>for use in various</p><p>detection conditions</p><p>Digital</p><p>Laser Sensor</p><p>LV-NEO Series</p><p>Enhanced detection</p><p>using long range</p><p>lasers with visible</p><p>beam spots</p><p>Digital</p><p>Photoelectric Sensor</p><p>PS-NEO Series</p><p>High environmental</p><p>resistance and easy</p><p>installation for any</p><p>environment</p><p>Network Compatible</p><p>Pressure Sensor</p><p>AP-NEO Series</p><p>Space-saving</p><p>design with a</p><p>compact amplifier</p><p>and head</p><p>All-Purpose Laser</p><p>Sensor</p><p>LR-T Series</p><p>Stable detection for</p><p>medium to long</p><p>range applications</p><p>Full-Spectrum</p><p>Sensor</p><p>LR-W Series</p><p>Reliably detect color,</p><p>texture, and finish</p><p>changes with a white</p><p>LED</p><p>Clamp-On</p><p>Flow Sensor</p><p>FD-Q Series</p><p>No pipe modification</p><p>necessary, simply</p><p>clamp-on to existing</p><p>pipes</p><p>Multi-Sensor</p><p>Controller</p><p>MU-N12</p><p>CC-Link DeviceNetTM EtherCAT®</p><p>NU-EP1 NU-CL1 NU-DN1 NU-EC1A</p><p>NEW</p><p>NEW</p><p>*Communication units that support PROFINET and PROFIBUS are also available. Contact KEYENCE for more information.</p><p>6</p><p>Communication Units DL Series</p><p>Self-Contained</p><p>Photoelectric Sensor</p><p>PZ-G Series</p><p>Versatile lineup of</p><p>high-powered</p><p>sensors for any</p><p>scenario</p><p>Self-Contained</p><p>Miniature</p><p>Photoelectric Sensor</p><p>PR-M/F Series</p><p>Robust and compact</p><p>designs for stable</p><p>detection that lasts</p><p>Self-Contained</p><p>Proximity Sensor</p><p>EZ Series</p><p>Cable protection for</p><p>excellent water and</p><p>oil resistance</p><p>Multi-Purpose CCD</p><p>Laser Micrometer</p><p>IG Series</p><p>CCD thrubeam-type</p><p>digital laser sensor</p><p>with superior stability</p><p>High-Accuracy</p><p>Digital Contact Sensor</p><p>GT2 Series</p><p>High accuracy</p><p>measurement</p><p>throughout entire</p><p>range</p><p>Inline Electrostatic</p><p>Sensor</p><p>SK Series</p><p>Simultaneous</p><p>measurement of</p><p>static electricity,</p><p>temperature, and</p><p>humidity</p><p>Information network</p><p>PLC</p><p>Expansion for</p><p>communication units</p><p>Sensor input unit</p><p>Uploading data from the PLC</p><p>(Temperature data and other logged data)</p><p>Downloading data to the PLC</p><p>(Parameters and other PLC data)</p><p>FTP Client/Server Function</p><p>PC</p><p>Touch panel</p><p>PLC Data Collection/Transmission Monitoring</p><p>NU-EN8N</p><p>EtherNet/IPTM CC-Link DeviceNetTM EtherCAT®</p><p>DL-EP1 DL-CL1 DL-DN1 DL-EC1A</p><p>NEW</p><p>7</p><p>Sensor heads (Detection components)</p><p>Type Rated pressure Model Pressure port Appearance</p><p>Gauge pressure</p><p>Negative pressure 0 to -101.3 kPa</p><p>AP-41M M3 male threaded</p><p>AP-41</p><p>M5 male threadedCompound pressure +101.3 to -101.3 kPa AP-44</p><p>Positive pressure 0 to +1 MPa AP-43</p><p>Differential</p><p>pressure Compound pressure -101.3 to +101.3 kPa AP-48 R 1/8</p><p>Communication units</p><p>Type Model Appearance</p><p>EtherNet/IPTM NU-EP1</p><p>CC-Link NU-CL1</p><p>DeviceNetTM NU-DN1</p><p>EtherCAT® NU-EC1A</p><p>8-Point eCON</p><p>Input unit</p><p>(NPN)</p><p>NU-EN8N*</p><p>* The NU-EN8N is used in combination with the NU-EP1/CL1/DN1/EC1A.</p><p>Accessories</p><p>Type</p><p>Connection sizes</p><p>Model Appearance</p><p>Sensor side Pipe</p><p>side</p><p>T-shaped single contact joint</p><p>M3 ø4 ø0.16" OP-42220</p><p>M5</p><p>ø4 ø0.16" OP-33156</p><p>ø6 ø0.24" OP-33157</p><p>Threaded pipe joint M5</p><p>M5 OP-33155</p><p>R1/8 OP-35388</p><p>Reducer conversion joint M5 ø6 ø0.24" OP-33158</p><p>Lineup</p><p>Sensor amplifiers (Display devices)</p><p>Type Model Appearance</p><p>Single output</p><p>type* AP-N10</p><p>Dual output</p><p>type* AP-N10D</p><p>*There are no control output wires. The signals are acquired via network communication.</p><p>M3</p><p>M5</p><p>M5</p><p>M5</p><p>ø6 ø0.24"</p><p>M5</p><p>ø4 ø0.16"</p><p>ø6 ø0.24"</p><p>M5</p><p>M5</p><p>R1/8</p><p>M5</p><p>ø4 ø0.16"</p><p>8</p><p>Model AP-41M AP-41 AP-43 AP-44 AP-48</p><p>Application Gauge pressure Differential pressure</p><p>Type Negative pressure Positive pressure Compound pressure</p><p>Rated pressure 0 to –101.3 kPa 0 to 1 MPa +101.3 to –101.3 kPa –101.3 to +101.3 kPa</p><p>Proof pressure 500 kPa 1.5 MPa 500 kPa 500 kPa</p><p>Fluid type Air, non-corrosive gasses</p><p>Temperature characteristic ±2% of F.S. (When the temperature varies from 25°C 77°F)</p><p>Pressure port M3 male threaded M5 male threaded R1/8</p><p>Environmental</p><p>resistance</p><p>Ambient temperature 0 to +50°C 32 to 122°F (No freezing)</p><p>Ambient humidity 35 to 85% RH (No condensation)</p><p>Shock resistance 1000 m/s2 10 times in each of X, Y and Z directions, total of 60 times</p><p>Vibration resistance 10 to 55 Hz double amplitude 1.5 mm 0.06", 4 hours in each of X, Y and Z directions</p><p>Material</p><p>Case: PBT,</p><p>Screw: SUS303,</p><p>Cable: PVC</p><p>Weight (including cable) Approx. 68 g Approx. 70 g Approx. 98 g</p><p>Sensor heads (Detection components)</p><p>Sensor amplifiers (Display devices)</p><p>Model AP-N10 (Single output type) / AP-N10D (Dual output type)</p><p>Connected heads AP-41M AP-41 AP-43 AP-44 AP-48</p><p>Display resolution</p><p>Standard mode 0.1 kPa 0.001 MPa 0.1 kPa 0.1 kPa</p><p>High resolution mode 0.01 kPa 0.1 kPa 0.01 kPa 0.01 kPa</p><p>Configuration/Display range -15 to +110% of F.S.</p><p>Repeatability ±0.2% of F.S.</p><p>Display temperature characteristic ±1% of F.S. (When the temperature varies from 25°C 77°F)</p><p>Response time (Chattering prevention function) 1 ms / 2.5 ms / 5 ms / 100 ms / 500 ms / 1000 ms / 5000 ms selectable</p><p>Power voltage 12 to 24 VDC ±10% Ripple (P-P) 10% max. Class2</p><p>Power</p><p>consumption</p><p>Normal 770 mW or less (at 24 V, 32 mA or less / at 12 V, 54 mA or less)</p><p>Eco mode 560 mW or less (at 24 V, 23 mA or less / at 12 V, 37 mA or less)</p><p>Expansion units*1 Max. 16 units (Dual output type is counted as 2 units.)</p><p>Control output(s)*2 AP-N10: 1, AP-N10D: 2</p><p>Environmental</p><p>resistance</p><p>Ambient temperature*3 0 to +50°C 32 to 122°F (No freezing)</p><p>Ambient humidity 35 to 85% RH (No condensation)</p><p>Shock resistance 500 m/s2 3 times in each of X, Y and Z directions</p><p>Vibration resistance 10 to 55 Hz, double amplitude 1.5 mm 0.06", 2 hours in each of X, Y and Z directions</p><p>Material Main unit and cover: Polycarbonate</p><p>Weight Approx. 20 g</p><p>*1 Can connect to other N-bus sensor amplifiers. N-bus represents the wire-saving system for KEYENCE-manufactured sensor amplifiers.</p><p>*2 Number of outputs when connected to the communication unit NU Series. There are no control output wires.</p><p>*3 11 to 16 units connected: 0 to +45°C 32 to 113°F (When the sensor amplifier is installed on DIN rail on a metal plate)</p><p>Specifications</p><p>9</p><p>Model NU-CL1</p><p>CC-Link</p><p>Specifications</p><p>Compatible</p><p>versions Ver.2.00/Ver.1.10 (Selectable)</p><p>Number of</p><p>Occupied stations</p><p>Ver.2.00/3 stations</p><p>Ver.1.10: 1 station / 2 stations / 3 stations / 4 stations</p><p>(Selectable)</p><p>Station type Remote device station</p><p>Transmission rate 156 kbps / 625 kbps / 2.5 Mbps / 5 Mbps / 10 Mbps</p><p>Station No. setting 1 to 64</p><p>Number of connectable sensors Max. 16 units</p><p>(Differs depending on the sensor amplifier connected)</p><p>Power voltage 24 VDC ±10%</p><p>Ripple (P-P) 10% max.</p><p>Weight (Including connector) Approx. 80 g</p><p>Accessories Instruction manual, CC-Link connector, power supply</p><p>connector, terminating resistance, end unit × 2</p><p>CC-Link is either a registered trademark or a trademark of Mitsubishi Electric Corporation.</p><p>CC-Link compatible communication unit NU-CL1</p><p>Model NU-DN1</p><p>DeviceNetTM</p><p>Specifications</p><p>Supported</p><p>functions</p><p>I/O communication (Poll) Explicit message</p><p>communication</p><p>Address setting 0 to 63 (PGM compatible)</p><p>Baud rate (Selectable</p><p>communication</p><p>speed)</p><p>500 kbps 250 kbps 125 kbps</p><p>Maximum</p><p>cable length</p><p>100 m 328.1'</p><p>(Thick cable)</p><p>250 m 820.2'</p><p>(Thick cable)</p><p>500 m 1640.4'</p><p>(Thick cable)</p><p>100 m 328.1'</p><p>(Thin cable)</p><p>100 m 328.1'</p><p>(Thin cable)</p><p>100 m 328.1'</p><p>(Thin cable)</p><p>Number of connectable</p><p>sensors</p><p>Max. 16 units</p><p>(Differs depending on the sensor amplifier connected)</p><p>Power voltage 11 to 25 VDC</p><p>Weight (Including connector) Approx. 65 g</p><p>Accessories Instruction manual, DeviceNetTM connector, end unit × 2</p><p>DeviceNetTM is either a registered trademark or a trademark of ODVA.</p><p>DeviceNetTM compatible communication unit NU-DN1</p><p>Model NU-EN8N</p><p>Connectible communication units NU-CL1, NU-DN1, NU-EP1, NU-EC1A</p><p>Number of connectable units Max. 2 units (Number of ID numbers occupied: 8)*1</p><p>Input/Output</p><p>Connectors e-CON connector (4 pins)</p><p>Number of inputs 8</p><p>Voltage supplied to device Supplied via communication unit</p><p>Supplied current 520 mA or less (8 inputs combined)</p><p>Input signal NPN open collector output, with contact output</p><p>Input response time 20 µs or less</p><p>Internal input voltage 8 VDC (Input current reference value: 3.1 mA)</p><p>Input resistance 2.4 kΩ</p><p>Power voltage 12 to 24 VDC ±10% Ripple (P-P) 10% max.*2</p><p>Weight (including tags) Approx. 55 g</p><p>Accessories Instruction manual, tags, index stickers</p><p>*1 If connecting to communication units, connect this device last. Sensor amplifiers connected after this device is connected will not be recognized by the communication units.</p><p>*2 Power is supplied to the device via communication units.</p><p>Communication unit compatibility e-CON input unit NU-EN8N</p><p>Model NU-EC1A</p><p>Ethernet</p><p>Specifications</p><p>Compliant standards IEEE802.3u (100BASE-TX)</p><p>Transmission rate 100 Mbps (100BASE-TX)</p><p>Transmission media Category 5e or higher STP cable</p><p>Distance between nodes 100 m 328.1'</p><p>Communication ports RJ45 Connectors × 2</p><p>EtherCAT®</p><p>Communication</p><p>Specifications</p><p>Supported functions</p><p>Process data object communication (Cyclic communication)</p><p>Mailbox communication Compatible with CoE</p><p>Explicit Device Identification</p><p>Number of connectable sensors Max. 16 units (Differs depending on the sensor amplifier connected)</p><p>Power voltage 24 VDC ±10% Ripple (P-P) 10% max.</p><p>Weight (Including connector) Approx. 80 g</p><p>Accessories Instruction manual, power supply connector, end unit × 2</p><p>EtherCAT® compatible communication unit NU-EC1A</p><p>Model NU-EP1</p><p>Ethernet</p><p>Specifications</p><p>Compliant standards</p><p>IEEE802.3 (10BASE-T)</p><p>IEEE802.3u (100BASE-TX)</p><p>IEEE802.3af (Power over Ethernet, Class3)</p><p>Transmission rate</p><p>10 Mbps (10BASE-T)</p><p>100 Mbps (100BASE-TX)</p><p>Transmission media</p><p>STP or category-3 or higher UTP (10BASE-T)*</p><p>STP or category-5 or higher UTP (100BASE-TX)*</p><p>Maximum cable length 100 m 328.1' (Length between the main device and the Ethernet switch)</p><p>Maximum number of connectable hubs 4 (10BASE-T) 2 (100BASE-TX)</p><p>EtherNet/IPTM</p><p>Specifications</p><p>Supported functions</p><p>Cyclic communication</p><p>Supports UCMM and Class3 message communication (explicit message communication)</p><p>Number of connections 64</p><p>RPI (Communication cycle) 0.5 to 10000 ms (0.5 ms units)</p><p>Tolerable communication bandwidth for</p><p>cyclic communication 6000 pps</p><p>Conformance test Supports VersionA7</p><p>Number of connectable sensors Max. 16 units (Differs depending on the sensor amplifier connected)</p><p>Power voltage 24 VDC ±10% Ripple (P-P) 10% max. (When using a power supply connector)</p><p>48 VDC (57 VDC max.) (When receiving power via PoE)*</p><p>Weight (Including connector) Approx. 80 g</p><p>Accessories Instruction manual, power supply connector, end unit × 2</p><p>* Cannot be connected to the following KEYENCE PoE power supplies: DT-100A, DT-500, NE-V08 If connecting using the PoE power receiving function, use an STP cable or a category-5 or higher UTP cable.</p><p>EtherNet/IPTM is either a registered trademark or a trademark of ODVA.</p><p>EtherNet/IPTM compatible communication unit NU-EP1</p><p>Specifications</p><p>Communication units</p><p>10</p><p>49.5 1.95"</p><p>35.4 1.39"24.1 0.95"</p><p>12.5 0.49"9.6</p><p>0.38"</p><p>29.4</p><p>1.16"</p><p>20.3</p><p>0.80"</p><p>15.3 0.60"</p><p>56.4</p><p>2.22"</p><p>17.5</p><p>0.69"</p><p>78.2 3.08"</p><p>(42.2)</p><p>(1.66")</p><p>2.4</p><p>0.09"</p><p>37.7</p><p>1.48"</p><p>Maximum of</p><p>58.3 2.30" with</p><p>Cover Open</p><p>35.5 1.40"</p><p>(0.2)</p><p>(0.01")</p><p>15 0.59"</p><p>Maximum</p><p>of 125°</p><p>Maximum of</p><p>73.6 2.90" with</p><p>Cover Open</p><p>43.5 1.71" 35.41.39"</p><p>29.4</p><p>1.16"</p><p>15.8</p><p>0.62"</p><p>22.2 0.87"</p><p>(0.2)</p><p>(0.01")</p><p>Maximum</p><p>of 170°</p><p>20.3</p><p>0.80"</p><p>15 0.59"</p><p>15</p><p>0.59"</p><p>94.5 3.72" 17.6</p><p>0.69"</p><p>34.1</p><p>1.34"</p><p>1.9</p><p>0.07"</p><p>(38.5)</p><p>(1.52")</p><p>(P6.5 P0.26" × 7 = 45.5 1.79")</p><p>25.5</p><p>1.00"</p><p>39</p><p>1.54"</p><p>7 0.28"</p><p>9.5</p><p>0.37"</p><p>49.3</p><p>1.94"</p><p>78.2</p><p>3.08"</p><p>With tag mount</p><p>(Included with the NU-EN8N)</p><p>(13.15)(0.52")</p><p>(6.5)(0.26")</p><p>1.48"</p><p>37.5(1.65")</p><p>(42)</p><p>(44.9)</p><p>(1.77")</p><p>21.7</p><p>0.85"</p><p>35.4 1.39"</p><p>72.8 2.87"</p><p>1.75</p><p>0.07"</p><p>2</p><p>0.08"</p><p>30</p><p>1.18"</p><p>4.1</p><p>0.16"</p><p>20.3</p><p>0.80"</p><p>25.6</p><p>1.01"</p><p>43.5 1.71"</p><p>94.5 3.72"</p><p>(0.2)</p><p>(0.01")</p><p>15 0.59"</p><p>15 0.59"</p><p>35.4 1.39"</p><p>17.6</p><p>0.69"</p><p>29.4</p><p>1.16"</p><p>38.1</p><p>1.50"</p><p>(42.5)</p><p>(1.67")</p><p>35.41.39"</p><p>78.2 3.08"</p><p>24.1</p><p>0.95"</p><p>37.7</p><p>1.48"</p><p>29.4</p><p>1.16"</p><p>5.4</p><p>0.21"</p><p>9.6 0.38" 35.5 1.40"</p><p>49.5 1.95"</p><p>56.4</p><p>2.22"(42.2)</p><p>(1.66")</p><p>2.4</p><p>0.09"</p><p>(0.2)</p><p>(0.01")</p><p>Maximum of</p><p>58.3 2.30" with</p><p>Cover Open</p><p>Maximum</p><p>of 125°</p><p>2-ø4</p><p>4</p><p>0.16"</p><p>120.47" 12 0.47"</p><p>8.50.33"</p><p>15.5</p><p>0.61"</p><p>8.3 0.33"</p><p>R1/8</p><p>10</p><p>0.39"</p><p>3</p><p>0.12"</p><p>30.12"</p><p>R1.5</p><p>940.16" 0.35"</p><p>2.69"</p><p>68.2</p><p>16.6</p><p>0.65"</p><p>1.38"</p><p>35</p><p>16.6 0.65"</p><p>35 1.38"</p><p>26.51.04"</p><p>33.5 1.32"</p><p>18.5</p><p>0.73"</p><p>12.5</p><p>0.49"</p><p>(23)</p><p>(0.91") 13</p><p>0.51"</p><p>12.5 0.49"</p><p>12</p><p>0.47" M5 × 0.8</p><p>10</p><p>0.39" 20</p><p>0.79"</p><p>13</p><p>0.51"</p><p>0.03"</p><p>5 0.20"</p><p>10</p><p>0.39"</p><p>5.5</p><p>0.22"</p><p>9 0.35"</p><p>Cord length 3 m 9.8' Oil resistant/</p><p>flexing resistant model</p><p>ø3.6 ø0.14" (4 cores × 0.18 mm2)</p><p>Cord length 3 m 9.8' Oil resistant/</p><p>flexing resistant model</p><p>ø3.6 ø0.14" (4 cores × 0.18 mm2)</p><p>Cord length 3 m 9.8' Oil resistant/</p><p>flexing resistant model</p><p>ø3.6 ø0.14" (4 cores × 0.18 mm2)</p><p>M3 × 0.5</p><p>6.7 0.26"</p><p>6 0.24"</p><p>0.02"</p><p>17.3</p><p>0.68"</p><p>10.3</p><p>0.41"</p><p>0.9</p><p>0.04"</p><p>9.20.36"</p><p>9.80.39" 40.16"</p><p>19</p><p>0.75"</p><p>ø0.16"</p><p>End unit</p><p>When connectedEnd unit</p><p>With DIN rail attached</p><p>OP-26751 (Options, included with the NU Series)</p><p>60.24"</p><p>9.2</p><p>0.36"</p><p>35.4 1.39"</p><p>53.8 2.12"</p><p>(22.6)</p><p>(0.89") 0.82"</p><p>20.8</p><p>3.4</p><p>0.13"</p><p>4.5</p><p>0.18"</p><p>20.7 0.81" 35.4 1.39"</p><p>71.8 2.83"7</p><p>0.28"</p><p>Maximum of 100 3.94"</p><p>with Cover Open</p><p>9.8</p><p>0.39"</p><p>14</p><p>0.55"</p><p>30.4</p><p>1.20"</p><p>(1.39")</p><p>(35.4)</p><p>NU-EN8N</p><p>NU-CL1</p><p>NU-EC1ANU-EP1</p><p>AP-41M AP-N10/N10D</p><p>AP-41/43/44</p><p>AP-48</p><p>NU-DN1</p><p>Sensor heads (Detection components) Sensor amplifiers (Display devices)</p><p>Communication units</p><p>Dimensions Unit: mm inch</p><p>11</p><p>www.keyence.com</p><p>APN-KA-C2-US 1087-1 611F44 Copyright (c) 2017 KEYENCE CORPORATION. All rights reserved.</p><p>E-mail: keyence@keyence.com</p><p>E-mail: keyencemexico@keyence.com</p><p>E-mail: keyencecanada@keyence.com</p><p>Series Model Remarks</p><p>Fiberoptic Sensor</p><p>FS-NEO Series</p><p>FS-N10 Expansion unit, zero line type</p><p>FS-N12N Expansion unit, cable, NPN (Single output type)</p><p>FS-N12P Expansion unit, cable, PNP (Single output type)</p><p>FS-N12CN Expansion unit, M8 connector, NPN (Single output type)</p><p>FS-N12CP Expansion unit, M8 connector, PNP (Single output type)</p><p>FS-N12EN Expansion unit, e-con connector, NPN (Single output type)</p><p>FS-N14N Expansion unit, cable, NPN (Dual output type)</p><p>FS-N14P Expansion unit, cable, PNP (Dual output type)</p><p>FS-N14CP Expansion unit, M8 connector, PNP (Dual output type)</p><p>Laser Sensor</p><p>LV-NEO Series</p><p>LV-N10 Expansion unit, zero line type</p><p>LV-N12N Expansion unit, cable, NPN (Dual output type)</p><p>LV-N12P Expansion unit, cable, PNP (Dual output type)</p><p>LV-N12CN Expansion unit, M8 connector, NPN (Single output type)</p><p>LV-N12CP Expansion unit, M8 connector, PNP (Single output type)</p><p>Photoelectric Sensor</p><p>PS-NEO Series</p><p>PS-N10 Expansion unit, zero line type</p><p>PS-N12N Expansion unit, cable, NPN</p><p>PS-N12P Expansion unit, cable, PNP</p><p>PS-N12CN Expansion unit, M8 connector, NPN</p><p>PS-N12CP Expansion unit, M8 connector, PNP</p><p>Pressure Sensor</p><p>AP-NEO Series</p><p>AP-N10 Expansion unit, zero line type</p><p>AP-N10D Expansion unit, zero line type (Dual output type)</p><p>Multi-Sensor Controller</p><p>MU-N Series MU-N12 Expansion unit, dedicated cable</p><p>NPN/PNP selectable</p><p>General-purpose sensors (connected to the NU Series)</p><p>General-purpose sensors / flow sensors</p><p>(connected to the NU Series via the MU-N12)</p><p>Series Model Remarks</p><p>TOF Laser Sensor</p><p>LR-T Series</p><p>LR-TB5000 Cable, class2</p><p>LR-TB5000C M12 connector, class2</p><p>LR-TB5000CL M12 connector, class1</p><p>LR-TB2000 Cable, class2</p><p>LR-TB2000C M12 connector, class2</p><p>LR-TB2000CL M12 connector, class1</p><p>Photoelectric Sensor</p><p>LR-W Series</p><p>LR-W500 Cable</p><p>LR-W500C M12 Connector</p><p>LR-W70 Cable</p><p>LR-W70C M12 Connector</p><p>LR-WF10 Cable</p><p>LR-WF10C M12 Connector</p><p>Clamp-on Flow Sensor</p><p>FD-Q Series</p><p>FD-Q10C M12 Connector</p><p>FD-Q20C M12 Connector</p><p>FD-Q32C M12 Connector</p><p>FD-Q50C M12 Connector</p><p>List of Sensor Models Compatible with Sensor Networking</p>