KME-M001C_07

UV Sensor KME-M001C DIMENSION The KME-M001C UV Sensor combines a High Power UV LED with LTV Sensor, Band pass filter. (Unit : mm) FEATURES Difficult for dust and debris to come onto element Easy equipping Detection of the Existence for a Fluorescent Material APPLICATIONS ATM Vending Machine etc MAXIMUM RATINGS Parameter Power Dissipation Forward Current Input Peak Forward Current (1) Reverse Current Supply Voltage Output Output Current Operating Temperature Storage Temperature Range ESD Withstand Voltage (Human Body Model) Note 1. Pulse width ≤ 500usec ; Duty factor : 1% ELECTRO-OPTICAL CHARACTERISTICS Parameter Input Forward Voltage Peak Wavelength Supply Voltage Output Dark Voltage Maximum Output Voltage Forward Current Transmission Symbol PD IF IFP IR VDD IO Topr Tstg VESD Rating 60 25 80 60 6 10 -20 ~ 75 -25 ~ 85 ±2.0 (Ta=25°C ) Unit mW mA mA mA V mA °C °C kV (Ta=25°C ) Max. Unit 4.0 5.5 15 4.49 2 20 V nm V mV V mA Symbol VF λp VDD VD VOM IF Conditions IF=20mA IF=20mA Ee=0 VDD=4.5V L=4mm, V DD=5V, VTAR(2)= 4.5V, Fluorescent Paper L=4mm, V DD=5V, ITAR(3), NonFluorescent Paper Min. 4.5 0 Typ. 3.5 375 5.0 Low Level Output Voltage VOL - 160 150 1 - V µs µs Response Rise Time tr Fall Time tf Time Note 2. VTAR = Target Voltage = 4.5V Note 3. ITAR =IF(Forward Current) when VTAR Note 4. Fluorescent Paper = HP Bright white inkjet paper (C5977B) 1/2 UV Sensor KME-M001C Forward current Vs. Forward voltage Ta=25℃ Allowable Forward Current IFP (㎃) Forward current(IF ) 100 (㎃) 100 80 50 30 20 10 Duty Ratio Vs. Allowable Forward Current Ta=25℃ Forward voltage(V F ) Relative Collector Current Vs. Ambient temperature (V) 3.8 3.7 3.6 3.5 3.4 3.3 0 -20 0 20 40 60 (℃) Ambient temperature(Ta) Ta=25℃ 50 0 3.0 3.2 3.4 3.6 3.8 Forward voltage(V F ) (V) 1 5 10 20 50 100 Duty Ratio(%) Output VoltageVs. Forward Current (V) Output Voltage(Vo) 4 Dark Voltage(VD ) 3 2 1 0 VCC = 5V Ta=25℃ (㎷) 9 8 7 6 5 4 0 Ambient temperature Vcc = 5V Fluorescent Paper 0 10 15 20 (mA) 5 Forward Current(I F ) 10 20 30 40 50 60 (℃) Ambient temperature(Ta) Relative Output Voltage Vs. Moving distance X Relative Output Voltage (Vo) (%) 100 Vcc = 5V IF = ITAR Ta=25℃ =4mm Y Vcc = 5V IF = ITAR Ta=25℃ Method of measuring position detection characteristic X 0% Fluorescent Reflective Paper Y Fluorescent Paper 50 0 -2 -1 0 +1 +2 2 4 6 8 10 Moving Distance(mm) 0 + 2/2