SL-V08L 2018-10-22T15:29:09+08:00

Project Description

KEYENCE    SL-V08L in  stock

Model SL-V08H
Detection capability ø0.98″ ø25 mm
Beam axis spacing/Lens diameter 20 mm/ø5 mm 0.79″/ø0.20″
Effective aperture angle Max. ±2.5 ° (When operating distance is 3 m 98.23′ or more)
Working distance 0.1 m to 9.0 m 0.30′ to 29.53′ (detection height of 1,260 mm 49.61″ or l ess)
0.1 m to 7.0 m 0.30′ to 22.97′ (detection height of 1,400 mm 55.12″ or more)
Response time (ms) ON→OFF 7*1
OFF→ON 47*1
Light source Infrared LED (850 nm)
Operation mode Turns on when no interruptions are present in the detection zone (excluding when the muting function is used)
OSSD output Output 2 outputs each for PNP and NPN. Can be changed by using the connector cable.
Max. l oad current 500 mA*2
Residual vol tage (during ON) Max. 2.5 V (with a cable length of 7 m 22.97′)
Leakage current Max. 100 µA*3
Max. capacitive load 2.2 µF (with a load resistance of 100 Ω)
Load wiring resistance Max. 2.5 Ω*4
Non safety-rel ated output AUX Output with automatic PNP/NPN switching function, 50 mA max.
Interlock-reset-ready output
Alarm output
Clear/blocked output
State information output 1, 2
Muting lamp output Incandescent lamp (24 VDC, 1 to 7 W) or LED lamp (load current: 10 to 300 mA)*5 can be connected
Input EDM input Short-circuit current 10 mA
Wait input Short-circuit current 2.5 mA
Reset input
Muting input 1, 2
Override input
Protection circuit Reverse current protection, short-circuit protection for each output, surge protection for each output
Approved standards EMC EMS IEC61496-1, EN61496-1, UL61496-1
EMC EN55011 Class A, FCC Part15B Class A
Safety IEC61496-1, EN61496-1, UL61496-1 (Type 4 ESPE)
IEC61496-2, UL61496-2, EN61496-2 (Type 4 AOPD)
IEC61508 (SIL3), EN61508 (SIL3), IEC62061 (SIL3), EN ISO13849-1: 2015 (Category 4, PLe)
Rating Power voltage 24 VDC +10 %, -20 %, Ripple (P-P) 10 % or less
Current consumption (mA) When the center indicator is ON Transmitter 56*6
Receiver 70*6
When the center indicator is OFF Transmitter 52*6
Receiver 65*6
Environmental resistance Enclosure rating IP65 (IEC60529)
Overvoltage category II
Ambient light Incandescent lamp: 5,000 lux max., Sunlight: 20,000 lux max.
Operating ambient temperature -10 to +55 °C 14 to 131 °F (No freezing)
Storage temperature -25 to +60 °C -13 to 140 °F (No freezing)
Operating relative humidity 15 to 85 % RH (No condensation)
Storage relative humidity 15 to 95 % RH
Vibration resistance 10 to 55 Hz, Double amplitude 0.7 mm 0.03″, 20 sweeps in each of the X, Y, and Z directions
Shock resistance 100 m/s2 (Approx. 10 G), 16 ms pulse, 1,000 times in each of the X, Y, and Z directions
Material Main unit case Aluminum
Upper case/lower case Zinc die-cast
Front cover Polycarbonate, SUS304
Weight Transmitter 150 g
Receiver 155 g
*1 When connecting the SL-V units in series, the response time (ON to OFF) is the sum of the response times of al l the individual SL-V units, but the response time (OFF to ON) is the same as that of a singl e SL-V unit.
e.g. When connecting the SL-V32H (32 beam axes), SL-V24H (24 beam axes), and SL-V12L (12 beam axes) in series, the response time of each unit is 10.3 ms, 9.2 ms, and 7.6 ms respectively, and the response time (ON to OFF) is 10.3 ms + 9.2 ms + 7.6 ms = 27.1 ms.
*2 When used under ambient temperature between 45 to 55 °C 113 to 131 °F , the maximum should not exceed 300 mA.
*3 Applies to situations when power is either off or disconnected.
*4 The wiring resistance between the OSSD output and the connected equipment (excluding the resistance of the cable) must be 2.5 Ω or less to ensure operations. If using the NPN output with a cable length of 15 m or longer, and the load current consumption is 200 mA or more, the wire resistance must be 1.0 Ω or less.
*5 When used under ambient temperature between 45 to 55 °C 113 to 131 °F, use incandescent lamps (24 VDC, 1 to 3 W) or LED lamps (load current: 10 to 100 mA).
*6 The current consumption of the transmitter increases by 10 mA and decreases on the receiver by 10 mA when the AUX output (red wire of the transmitter) and the EDM input (red wire of the receiver) are short circuited if the fol lowing additional condition is met. (The total consumption of both transmitter and receiver is fixed.)
In the case where the PNP output type cabl e is used, the condition is that OSSD stays in the OFF state.
In the case where the NPN output type cable is used, the condition is that OSSD stays in the ON state.

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