Amplifier-separated Type Digital Laser Sensor LS-500
The LS-500 Series Amplifier-Separated Type Digital Laser Sensor offers high-class Laser Sensors able to detect very small objects with a processing speed of down to 60µs. The new full stainless steel M6 housing is robust and optimally suited for applications in harsh environments. The unique controller can handle Thru-Beam, Diffuse Reflection and Retroreflection Laser Sensor heads. All Sensors are equipped with two digital outputs, and cable-type Sensors offer an additional analog output, opening new dimensions in the detection of small objects.
Characteristics:
Laser Class 1
M6 Stainless Steel Housing For Thru-Beam Version (LS-H101)
IP67 Version (LS-H102)
Analog Output 4-20mA
Very Fast Processing - 60µs
Small Housing: 23.4 x 12 x 8.2mm
Amplifier-separated Type Digital Laser Sensor LS-500
Part number list
Results 13
Models table for series Amplifier-separated Type Digital Laser Sensor LS-500
Orange LED (lights up when sensing output 1 or sensing output 2 is ON)
IP40(IEC)
-10 to +55degrees + 14 to 131 degrees Fahrenheit (If 4 to 7 units are mounted close together, -10 to +50 degrees +14 to +122 degrees Fahrenheit ; if 8 to 16 units are mounted close together, -10 to +45 degrees +14 to +113 degrees Fahrenheit )(No dew condensation or icing allowed), Storage: -20 to +70 degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 150 Hz frequency, 0.75 mm 0.030 in (max. 10 G) amplitude in X, Y and Z directions for two hours each
98 m/s2 acceleration (10 G approx.) in X, Y and Z directions for five times each
Net weight: 15 g approx. Gross weight: 55 g approx.
FX-MB1 (Amplifier protective seal): 1 set
12 to 24 V DC +10-15% Ripple P-P 10 % or less
Normal operation: 1,200 mW or less (Current consumption 50 mA or less at 24 V supply voltage) ECO mode: 980 mW or less (Current consumption 40 mA or less at 24 V supply voltage)
NPN open-collector transistor ・Maximum sink current: 50 mA (Note:25 mA if 5 or more amplifier are connected in cascade (excluding cable extension).) ・Applied voltage: 30 V DC or less (between output and 0 V) ・Residual voltage: 2 V or less (at max. sink current) (Note:Select either sensing output 2 or external input as the connector type.)
Selectable either Light-ON or Dark-ON
Incorporated
Normal mode, differential mode, hysteresis mode, window comparator mode, selectable
Normal mode, differential mode, hysteresis mode, self-diagnostic output mode, selectable (Note:Select either sensing output 2 or external input.)
H-SP: 60 micro s or less, FAST: 150 micro s or less, STD: 250 micro s or less, LONG: 500 micro s or less, U-LG: 5 ms or less, HYPR: 24 ms or less selectable
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NPN non-contact input - Signal condition High: +8 V to +V DC or open, Low: 0 to +2 V DC (source current 0.5 mA or less) - Input impedance: 10 kOhm approx. (Note:Select either sensing output 2 or external input.)
Laser emission halt / teaching (full-auto teaching, limit teaching, 2 point teaching) / logic operation setting / copy lock /display adjustment / data bank load / data bank save, selectable
Green LED (lights up during laser emission)
Yellow LED (lights up when output is selected)
8-digit 7-segment digital display (4-digit green LED + 4-digit red LED), MODE indicator (Yellow LED): L/D, CUST, PRO
H-SP/FAST/STD: 0 to 4,000 LONG/U-LG/HYPR: 0 to 9,999
2-level teaching / limit teaching / full auto teaching / manual adjustment
Between sensing output 1 and calculation target: Disabled / and / or / xor, selectable Calculation target: Sensing output 2 / adjacent upstream amplifier (sensing output 1) / external input, selectable
OFF-delay timer, ON-delay timer, ONE-SHOT timer, ON / OFF-delay timer, ON-delay / ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
OFF-delay timer, ON-delay timer, ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
Timer range '' ms'': 0.5 ms approx., 1 to 9,999 ms approx., in approx. 1 ms intervals Timer range '' sec'': 0.5 sec. approx., 1 to 32 sec. approx., in approx. 1 sec. intervals Timer range '' 1/10 ms'': 0.05 ms approx., 0.1 to 999.9 ms approx., in approx. 0.1 ms intervals, Set separately for each output.
Incorporated (Note:Number of units that can be mounted close together: 0 for H-SP; 2 for FAST; 4 for STD, LONG, U-LG, or HYPR)
Extension up to total 100 m 328.084 ft is possible with 0.3mm2, or more, cable.
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1.5m 0.033 to 4.921 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2m 0.033 to 6.562 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2.5m 0.033 to 8.202 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 6 mm dia. 0.236 in or less (at a distance from the sensor head of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
150mm 5.906 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
200mm 7.874 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
300mm 11.811 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
450mm 17.717 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
600mm 23.622 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
750mm 29.528 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 2 mm dia. 0.079 in or less (at a distance from the sensor head of 300 mm 11.811 in)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1.5m 0.033 to 4.921 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2m 0.033 to 6.562 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2.5m 0.033 to 8.202 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 6 mm dia. 0.236 in or less (at a distance from the sensor head of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1.5m 0.033 to 4.921 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2m 0.033 to 6.562 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2.5m 0.033 to 8.202 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 6 mm dia. 0.236 in or less (at a distance from the sensor head of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
Orange LED (lights up when sensing output 1 or sensing output 2 is ON)
IP40(IEC)
-10 to +55degrees + 14 to 131 degrees Fahrenheit (If 4 to 7 units are mounted close together, -10 to +50 degrees +14 to +122 degrees Fahrenheit ; if 8 to 12 units are mounted close together, -10 to +45 degrees +14 to +113 degrees Fahrenheit )(No dew condensation or icing allowed), Storage: -20 to +70 degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 150 Hz frequency, 0.75 mm 0.030 in (max. 10 G) amplitude in X, Y and Z directions for two hours each
98 m/s2 acceleration (10 G approx.) in X, Y and Z directions for five times each
Net weight: 75 g approx. Gross weight: 110 g approx.
FX-MB1 (Amplifier protective seal): 1 set
12 to 24 V DC +10-15% Ripple P-P 10 % or less
Normal operation: 1,200 mW or less (Current consumption 50 mA or less at 24 V supply voltage,excluding monitor current output) ECO mode: 980 mW or less (Current consumption 40 mA or less at 24 V supply voltage,excluding monitor current output)
NPN open-collector transistor ・Maximum sink current: 50 mA (Note:25 mA if 5 or more amplifier are connected in cascade (excluding cable extension).) ・Applied voltage: 30 V DC or less (between output and 0 V) ・Residual voltage: 2 V or less (at max. sink current) (Note:Select either sensing output 2 or external input as the connector type.)
Selectable either Light-ON or Dark-ON
Incorporated
Normal mode, differential mode, hysteresis mode, window comparator mode, selectable
Normal mode, differential mode, hysteresis mode, self-diagnostic output mode, answer-back output mode, selectable (Note:Select either sensing output 2 or external input.)
H-SP: 60 micro s or less, FAST: 150 micro s or less, STD: 250 micro s or less, LONG: 500 micro s or less, U-LG: 5 ms or less, HYPR: 24 ms or less selectable
Output current: Approx. 4 to 20 mA (H-SP, FAST, STD: at 0 to 4,000 indication) Response time: 2 ms or less Zero point: 4 mA plus or minus 1 % F.S. Span: 16 mA plus or minus 5 % F.S. Linearity: plus or minus 3 % F.S. Load resistance: 0 to 250 Ohm
NPN non-contact input - Signal condition High: +8 V to +V DC or open, Low: 0 to +2 V DC (source current 0.5 mA or less) - Input impedance: 10 kOhm approx.(Note:Select either sensing output 2 or external input.)
Laser emission halt / teaching (full-auto teaching, limit teaching, 2 point teaching) / logic operation setting / copy lock /display adjustment / data bank load / data bank save, selectable
Green LED (lights up during laser emission)
Yellow LED (lights up when output is selected)
8-digit 7-segment digital display (4-digit green LED + 4-digit red LED), MODE indicator (Yellow LED): L/D, CUST, PRO
H-SP/FAST/STD: 0 to 4,000 LONG/U-LG/HYPR: 0 to 9,999
2-level teaching / limit teaching / full auto teaching / manual adjustment
Between sensing output 1 and calculation target: Disabled / and / or / xor, selectable Calculation target: Sensing output 2 / adjacent upstream amplifier (sensing output 1) / external input, selectable
OFF-delay timer, ON-delay timer, ONE-SHOT timer, ON / OFF-delay timer, ON-delay / ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
OFF-delay timer, ON-delay timer, ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
Timer range '' ms'': 0.5 ms approx., 1 to 9,999 ms approx., in approx. 1 ms intervals Timer range '' sec'': 0.5 sec. approx., 1 to 32 sec. approx., in approx. 1 sec. intervals Timer range '' 1/10 ms'': 0.05 ms approx., 0.1 to 999.9 ms approx., in approx. 0.1 ms intervals, Set separately for each output.
Incorporated (Note:Number of units that can be mounted close together: 0 for H-SP; 2 for FAST; 4 for STD, LONG, U-LG, or HYPR)
Extension up to total 100 m 328.084 ft is possible with 0.3mm2, or more, cable.
Orange LED (lights up when sensing output 1 or sensing output 2 is ON)
IP40(IEC)
-10 to +55degrees + 14 to 131 degrees Fahrenheit (If 4 to 7 units are mounted close together, -10 to +50 degrees +14 to +122 degrees Fahrenheit ; if 8 to 12 units are mounted close together, -10 to +45 degrees +14 to +113 degrees Fahrenheit )(No dew condensation or icing allowed), Storage: -20 to +70 degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 150 Hz frequency, 0.75 mm 0.030 in (max. 10 G) amplitude in X, Y and Z directions for two hours each
98 m/s2 acceleration (10 G approx.) in X, Y and Z directions for five times each
0.2mm2 6-core cabtyre cable, 2 m 6.562 ft long (Note:Cable cannot be extended.)
Net weight: 75 g approx. Gross weight: 110 g approx.
FX-MB1 (Amplifier protective seal): 1 set
12 to 24 V DC +10-15% Ripple P-P 10 % or less
Normal operation: 1,200 mW or less (Current consumption 50 mA or less at 24 V supply voltage,excluding monitor current output) ECO mode: 980 mW or less (Current consumption 40 mA or less at 24 V supply voltage,excluding monitor current output)
PNP open-collector transistor ・Maximum source current: 50 mA (Note:25 mA if 5 or more amplifier are connected in cascade (excluding cable extension).) ・Applied voltage: 30 V DC or less (between output and +V) ・Residual voltage: 2 V or less (at max. source current) (Note:Select either sensing output 2 or external input as the connector type.)
Selectable either Light-ON or Dark-ON
Incorporated
Normal mode, differential mode, hysteresis mode, window comparator mode, selectable
Normal mode, differential mode, hysteresis mode, self-diagnostic output mode, answer-back output mode, selectable (Note:Select either sensing output 2 or external input.)
H-SP: 60 micro s or less, FAST: 150 micro s or less, STD: 250 micro s or less, LONG: 500 micro s or less, U-LG: 5 ms or less, HYPR: 24 ms or less selectable
Output current: Approx. 4 to 20 mA (H-SP, FAST, STD: at 0 to 4,000 indication) Response time: 2 ms or less Zero point: 4 mA plus or minus 1 % F.S. Span: 16 mA plus or minus 5 % F.S. Linearity: plus or minus 3 % F.S. Load resistance: 0 to 250 Ohm
PNP non-contact input - Signal condition High: +4 Vto+V DC(sink current 3.0 mA or less), Low: 0 to +0.6 V DC or open - Input impedance: 10 kOhm approx.(Note:Select either sensing output 2 or external input.)
Laser emission halt / teaching (full-auto teaching, limit teaching, 2 point teaching) / logic operation setting / copy lock /display adjustment / data bank load / data bank save, selectable
Green LED (lights up during laser emission)
Yellow LED (lights up when output is selected)
8-digit 7-segment digital display (4-digit green LED + 4-digit red LED), MODE indicator (Yellow LED): L/D, CUST, PRO
H-SP/FAST/STD: 0 to 4,000 LONG/U-LG/HYPR: 0 to 9,999
2-level teaching / limit teaching / full auto teaching / manual adjustment
Between sensing output 1 and calculation target: Disabled / and / or / xor, selectable Calculation target: Sensing output 2 / adjacent upstream amplifier (sensing output 1) / external input, selectable
OFF-delay timer, ON-delay timer, ONE-SHOT timer, ON / OFF-delay timer, ON-delay / ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
OFF-delay timer, ON-delay timer, ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
Timer range '' ms'': 0.5 ms approx., 1 to 9,999 ms approx., in approx. 1 ms intervals Timer range '' sec'': 0.5 sec. approx., 1 to 32 sec. approx., in approx. 1 sec. intervals Timer range '' 1/10 ms'': 0.05 ms approx., 0.1 to 999.9 ms approx., in approx. 0.1 ms intervals, Set separately for each output.
Incorporated (Note:Number of units that can be mounted close together: 0 for H-SP; 2 for FAST; 4 for STD, LONG, U-LG, or HYPR)
Extension up to total 100 m 328.084 ft is possible with 0.3mm2, or more, cable.
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 5 mm dia. 0.197 in or less (at a distance from the emitter of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 5 mm dia. 0.197 in or less (at a distance from the emitter of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 5 mm dia. 0.197 in or less (at a distance from the emitter of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP67 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
2mW
Enclosure: PBT Cover: Acrylic
0.09 mm2 2-core shielded cable, 2 m 6.562 ft long (Note:Cable cannot be extended.)
MS-EXL2-2 (Mounting plate): 2 pcs.
Models table for series Amplifier-separated Type Digital Laser Sensor LS-500
Orange LED (lights up when sensing output 1 or sensing output 2 is ON)
IP40(IEC)
-10 to +55degrees + 14 to 131 degrees Fahrenheit (If 4 to 7 units are mounted close together, -10 to +50 degrees +14 to +122 degrees Fahrenheit ; if 8 to 16 units are mounted close together, -10 to +45 degrees +14 to +113 degrees Fahrenheit )(No dew condensation or icing allowed), Storage: -20 to +70 degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 150 Hz frequency, 0.75 mm 0.030 in (max. 10 G) amplitude in X, Y and Z directions for two hours each
98 m/s2 acceleration (10 G approx.) in X, Y and Z directions for five times each
Net weight: 15 g approx. Gross weight: 55 g approx.
FX-MB1 (Amplifier protective seal): 1 set
12 to 24 V DC +10-15% Ripple P-P 10 % or less
Normal operation: 1,200 mW or less (Current consumption 50 mA or less at 24 V supply voltage) ECO mode: 980 mW or less (Current consumption 40 mA or less at 24 V supply voltage)
NPN open-collector transistor ・Maximum sink current: 50 mA (Note:25 mA if 5 or more amplifier are connected in cascade (excluding cable extension).) ・Applied voltage: 30 V DC or less (between output and 0 V) ・Residual voltage: 2 V or less (at max. sink current) (Note:Select either sensing output 2 or external input as the connector type.)
Selectable either Light-ON or Dark-ON
Incorporated
Normal mode, differential mode, hysteresis mode, window comparator mode, selectable
Normal mode, differential mode, hysteresis mode, self-diagnostic output mode, selectable (Note:Select either sensing output 2 or external input.)
H-SP: 60 micro s or less, FAST: 150 micro s or less, STD: 250 micro s or less, LONG: 500 micro s or less, U-LG: 5 ms or less, HYPR: 24 ms or less selectable
-
NPN non-contact input - Signal condition High: +8 V to +V DC or open, Low: 0 to +2 V DC (source current 0.5 mA or less) - Input impedance: 10 kOhm approx. (Note:Select either sensing output 2 or external input.)
Laser emission halt / teaching (full-auto teaching, limit teaching, 2 point teaching) / logic operation setting / copy lock /display adjustment / data bank load / data bank save, selectable
Green LED (lights up during laser emission)
Yellow LED (lights up when output is selected)
8-digit 7-segment digital display (4-digit green LED + 4-digit red LED), MODE indicator (Yellow LED): L/D, CUST, PRO
H-SP/FAST/STD: 0 to 4,000 LONG/U-LG/HYPR: 0 to 9,999
2-level teaching / limit teaching / full auto teaching / manual adjustment
Between sensing output 1 and calculation target: Disabled / and / or / xor, selectable Calculation target: Sensing output 2 / adjacent upstream amplifier (sensing output 1) / external input, selectable
OFF-delay timer, ON-delay timer, ONE-SHOT timer, ON / OFF-delay timer, ON-delay / ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
OFF-delay timer, ON-delay timer, ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
Timer range '' ms'': 0.5 ms approx., 1 to 9,999 ms approx., in approx. 1 ms intervals Timer range '' sec'': 0.5 sec. approx., 1 to 32 sec. approx., in approx. 1 sec. intervals Timer range '' 1/10 ms'': 0.05 ms approx., 0.1 to 999.9 ms approx., in approx. 0.1 ms intervals, Set separately for each output.
Incorporated (Note:Number of units that can be mounted close together: 0 for H-SP; 2 for FAST; 4 for STD, LONG, U-LG, or HYPR)
Extension up to total 100 m 328.084 ft is possible with 0.3mm2, or more, cable.
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1.5m 0.033 to 4.921 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2m 0.033 to 6.562 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2.5m 0.033 to 8.202 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 6 mm dia. 0.236 in or less (at a distance from the sensor head of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
150mm 5.906 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
200mm 7.874 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
300mm 11.811 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
450mm 17.717 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
600mm 23.622 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
750mm 29.528 in (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 2 mm dia. 0.079 in or less (at a distance from the sensor head of 300 mm 11.811 in)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1.5m 0.033 to 4.921 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2m 0.033 to 6.562 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2.5m 0.033 to 8.202 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 6 mm dia. 0.236 in or less (at a distance from the sensor head of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1m 0.033 to 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 1.5m 0.033 to 4.921 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2m 0.033 to 6.562 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
0.01 to 2.5m 0.033 to 8.202 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 6 mm dia. 0.236 in or less (at a distance from the sensor head of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
Orange LED (lights up when sensing output 1 or sensing output 2 is ON)
IP40(IEC)
-10 to +55degrees + 14 to 131 degrees Fahrenheit (If 4 to 7 units are mounted close together, -10 to +50 degrees +14 to +122 degrees Fahrenheit ; if 8 to 12 units are mounted close together, -10 to +45 degrees +14 to +113 degrees Fahrenheit )(No dew condensation or icing allowed), Storage: -20 to +70 degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 150 Hz frequency, 0.75 mm 0.030 in (max. 10 G) amplitude in X, Y and Z directions for two hours each
98 m/s2 acceleration (10 G approx.) in X, Y and Z directions for five times each
Net weight: 75 g approx. Gross weight: 110 g approx.
FX-MB1 (Amplifier protective seal): 1 set
12 to 24 V DC +10-15% Ripple P-P 10 % or less
Normal operation: 1,200 mW or less (Current consumption 50 mA or less at 24 V supply voltage,excluding monitor current output) ECO mode: 980 mW or less (Current consumption 40 mA or less at 24 V supply voltage,excluding monitor current output)
NPN open-collector transistor ・Maximum sink current: 50 mA (Note:25 mA if 5 or more amplifier are connected in cascade (excluding cable extension).) ・Applied voltage: 30 V DC or less (between output and 0 V) ・Residual voltage: 2 V or less (at max. sink current) (Note:Select either sensing output 2 or external input as the connector type.)
Selectable either Light-ON or Dark-ON
Incorporated
Normal mode, differential mode, hysteresis mode, window comparator mode, selectable
Normal mode, differential mode, hysteresis mode, self-diagnostic output mode, answer-back output mode, selectable (Note:Select either sensing output 2 or external input.)
H-SP: 60 micro s or less, FAST: 150 micro s or less, STD: 250 micro s or less, LONG: 500 micro s or less, U-LG: 5 ms or less, HYPR: 24 ms or less selectable
Output current: Approx. 4 to 20 mA (H-SP, FAST, STD: at 0 to 4,000 indication) Response time: 2 ms or less Zero point: 4 mA plus or minus 1 % F.S. Span: 16 mA plus or minus 5 % F.S. Linearity: plus or minus 3 % F.S. Load resistance: 0 to 250 Ohm
NPN non-contact input - Signal condition High: +8 V to +V DC or open, Low: 0 to +2 V DC (source current 0.5 mA or less) - Input impedance: 10 kOhm approx.(Note:Select either sensing output 2 or external input.)
Laser emission halt / teaching (full-auto teaching, limit teaching, 2 point teaching) / logic operation setting / copy lock /display adjustment / data bank load / data bank save, selectable
Green LED (lights up during laser emission)
Yellow LED (lights up when output is selected)
8-digit 7-segment digital display (4-digit green LED + 4-digit red LED), MODE indicator (Yellow LED): L/D, CUST, PRO
H-SP/FAST/STD: 0 to 4,000 LONG/U-LG/HYPR: 0 to 9,999
2-level teaching / limit teaching / full auto teaching / manual adjustment
Between sensing output 1 and calculation target: Disabled / and / or / xor, selectable Calculation target: Sensing output 2 / adjacent upstream amplifier (sensing output 1) / external input, selectable
OFF-delay timer, ON-delay timer, ONE-SHOT timer, ON / OFF-delay timer, ON-delay / ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
OFF-delay timer, ON-delay timer, ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
Timer range '' ms'': 0.5 ms approx., 1 to 9,999 ms approx., in approx. 1 ms intervals Timer range '' sec'': 0.5 sec. approx., 1 to 32 sec. approx., in approx. 1 sec. intervals Timer range '' 1/10 ms'': 0.05 ms approx., 0.1 to 999.9 ms approx., in approx. 0.1 ms intervals, Set separately for each output.
Incorporated (Note:Number of units that can be mounted close together: 0 for H-SP; 2 for FAST; 4 for STD, LONG, U-LG, or HYPR)
Extension up to total 100 m 328.084 ft is possible with 0.3mm2, or more, cable.
Orange LED (lights up when sensing output 1 or sensing output 2 is ON)
IP40(IEC)
-10 to +55degrees + 14 to 131 degrees Fahrenheit (If 4 to 7 units are mounted close together, -10 to +50 degrees +14 to +122 degrees Fahrenheit ; if 8 to 12 units are mounted close together, -10 to +45 degrees +14 to +113 degrees Fahrenheit )(No dew condensation or icing allowed), Storage: -20 to +70 degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 150 Hz frequency, 0.75 mm 0.030 in (max. 10 G) amplitude in X, Y and Z directions for two hours each
98 m/s2 acceleration (10 G approx.) in X, Y and Z directions for five times each
0.2mm2 6-core cabtyre cable, 2 m 6.562 ft long (Note:Cable cannot be extended.)
Net weight: 75 g approx. Gross weight: 110 g approx.
FX-MB1 (Amplifier protective seal): 1 set
12 to 24 V DC +10-15% Ripple P-P 10 % or less
Normal operation: 1,200 mW or less (Current consumption 50 mA or less at 24 V supply voltage,excluding monitor current output) ECO mode: 980 mW or less (Current consumption 40 mA or less at 24 V supply voltage,excluding monitor current output)
PNP open-collector transistor ・Maximum source current: 50 mA (Note:25 mA if 5 or more amplifier are connected in cascade (excluding cable extension).) ・Applied voltage: 30 V DC or less (between output and +V) ・Residual voltage: 2 V or less (at max. source current) (Note:Select either sensing output 2 or external input as the connector type.)
Selectable either Light-ON or Dark-ON
Incorporated
Normal mode, differential mode, hysteresis mode, window comparator mode, selectable
Normal mode, differential mode, hysteresis mode, self-diagnostic output mode, answer-back output mode, selectable (Note:Select either sensing output 2 or external input.)
H-SP: 60 micro s or less, FAST: 150 micro s or less, STD: 250 micro s or less, LONG: 500 micro s or less, U-LG: 5 ms or less, HYPR: 24 ms or less selectable
Output current: Approx. 4 to 20 mA (H-SP, FAST, STD: at 0 to 4,000 indication) Response time: 2 ms or less Zero point: 4 mA plus or minus 1 % F.S. Span: 16 mA plus or minus 5 % F.S. Linearity: plus or minus 3 % F.S. Load resistance: 0 to 250 Ohm
PNP non-contact input - Signal condition High: +4 Vto+V DC(sink current 3.0 mA or less), Low: 0 to +0.6 V DC or open - Input impedance: 10 kOhm approx.(Note:Select either sensing output 2 or external input.)
Laser emission halt / teaching (full-auto teaching, limit teaching, 2 point teaching) / logic operation setting / copy lock /display adjustment / data bank load / data bank save, selectable
Green LED (lights up during laser emission)
Yellow LED (lights up when output is selected)
8-digit 7-segment digital display (4-digit green LED + 4-digit red LED), MODE indicator (Yellow LED): L/D, CUST, PRO
H-SP/FAST/STD: 0 to 4,000 LONG/U-LG/HYPR: 0 to 9,999
2-level teaching / limit teaching / full auto teaching / manual adjustment
Between sensing output 1 and calculation target: Disabled / and / or / xor, selectable Calculation target: Sensing output 2 / adjacent upstream amplifier (sensing output 1) / external input, selectable
OFF-delay timer, ON-delay timer, ONE-SHOT timer, ON / OFF-delay timer, ON-delay / ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
OFF-delay timer, ON-delay timer, ONE-SHOT timer, switchable either effective of ineffective, with variable timer period
Timer range '' ms'': 0.5 ms approx., 1 to 9,999 ms approx., in approx. 1 ms intervals Timer range '' sec'': 0.5 sec. approx., 1 to 32 sec. approx., in approx. 1 sec. intervals Timer range '' 1/10 ms'': 0.05 ms approx., 0.1 to 999.9 ms approx., in approx. 0.1 ms intervals, Set separately for each output.
Incorporated (Note:Number of units that can be mounted close together: 0 for H-SP; 2 for FAST; 4 for STD, LONG, U-LG, or HYPR)
Extension up to total 100 m 328.084 ft is possible with 0.3mm2, or more, cable.
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 5 mm dia. 0.197 in or less (at a distance from the emitter of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 5 mm dia. 0.197 in or less (at a distance from the emitter of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP40 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
LS-501(P), LS-501(P)-C2 (Note:When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level 2 or less. This is because there is a possibility of sensing becoming unstable.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
1m 3.281 ft (Note:The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in) as the object.) (Note:The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible setting range for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower the sensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.)
Approx. dia. 5 mm dia. 0.197 in or less (at a distance from the emitter of 1 m 3.281 ft)
Opaque, translucent, or transparent object (Note:Make sure to confirm detection with an actual sensor before use.)
Orange LED (lights up when the amplifier output is ON)
IP67 (IEC)
-10 to +55degrees + 14 to + 131 degrees Fahrenheit (No dew condensation or icing allowed), Storage: -20 to +70degrees -4 to +158 degrees Fahrenheit
35 to 85 % RH, Storage: 35 to 85 % RH
Incandescent light: 3,000 ℓx or less at the light-receiving face
1,000 V AC for one min. between all supply terminals connected together and enclosure
20 MOhm , or more, with 250 V DC megger between all supply terminals connected together and enclosure
10 to 500 Hz frequency, 1.5 mm 0.059 in double amplitude in X, Y and Z directions for two hours each
Red semiconductor laser diode
100 m / s2 acceleration (10 G approx.) in X, Y and Z directions three times each
660 nm 0.026 mil
Class 1 [IEC / JIS / FDA] (Note:This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices and )Radiological Health) under the FDA (Food and Drug Administration).
2mW
Enclosure: PBT Cover: Acrylic
0.09 mm2 2-core shielded cable, 2 m 6.562 ft long (Note:Cable cannot be extended.)