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ILD610 SERIES DUAL PHOTOTRANSISTOR OPTOCOUPLER FEATURES * Dual Version of SFH610 Series * High Current Transfer Ratios ILD610-1, 40-80% ILD610-2, 63-125% ILD610-3, 100-200% ILD610-4, 160-320% * Isolation Test Voltage, 5300 VRMS * VCEsat 0.25 (0.4) V at IF=10 mA, IC=2.5 mA * VCEO=70 V * Underwriters Lab File #E52744 * V VDE #0884 Available with Option 11 DE Dimensions in inches (mm) Pin One I.D. 4 3 2 1 Anode 1 Cathode 2 Anode 3 8 Emitter 7 Collector 6 Emitter 5 Collector .268 (6.81) .255 (6.48) 5 6 7 8 Cathode 4 .390 (9.91) .379 (9.63) .045 (1.14) .150 (3.81) .030 (.76) .130 (3.30) .305 Typ. (7.75) Typ. .135 (3.43) .115 (2.92) DESCRIPTION The ILD610 Series is a dual channel optocoupler series for high density applications. Each channel consists of an optically coupled pair with a Gallium Arsenide infrared LED and a silicon NPN phototransistor. Signal information, including a DC level, can be transmitted by the device while maintaining a high degree of electrical isolation between input and output. The ILD610 Series is the dual version of SFH610 Series and uses a repetitive pin-out configuration instead of the more common alternating pin-out used in most dual couplers. Maximum Ratings (Each Channel) Emitter Reverse Voltage .................................................6 V Surge Forward Current (t 10 ms)...................1.5 A Total Power Dissipation ..............................100 mW Derate Linearly from 25C......................1.3 mW/C DC Forward Current ......................................60 mA Detector Collector-Emitter Voltage..................................70 V Collector Current ..........................................50 mA Collector Current (t 1 ms) ..........................100 mA Total Power Dissipation ..............................150 mW Derate Linearly from 25C......................2.0 mW/C Package Isolation Test Voltage (t=1 sec.) ........ 5300 VACRMS Isolation Resistance VIO=500 V, TA=25C ............................... 1012 VIO=500 V, TA=100C ............................. 1011 Storage Temperature ...................-55C to +150C Operating Temperature ...............-55C to +100C Junction Temperature ................................... 100C Lead Soldering Time at 260C .................... 10 sec. 4 Typ. .022 (.56) .018 (.46) .040 (1.02) .030 (.76 ) .100 (2.54) Typ. 10 Typ. 3-9 .012 (.30) .008 (.20) Electrical Characteristics (TA=25C) Symbol Emitter Forward Voltage Reverse Current Capacitance Detector Breakdown Voltage Collector-Emitter Emitter-Collector Collector-Emitter Dark Current Capacitance Package Collector-Emitter Saturation Voltage Coupling Capacitance VCEsat CC 0.25 (0.40) 0.35 V pF IF=10 mA, IC=2.5 mA BVCEO BVCEO ICEO CCE 90 (70) 7.0 (6.0) 2 (50) 7 V V nA pF IC=10 A IE=10 A VCE=10 V VCE=5 V, f=1 MHz VF IR CO 1.25 (1.65) 0.01 (10) 25 V A pF IF=60mA VR=6V VR=0 V, f=1 MHz Typ. Unit Condition 5-1 -1 CTR1, IF =10 mA, VCE=5 V CTR1, IF =1 mA, VCE=5 V ICEO (VCE=10 V) 40-80 13 min. 2 (50) -2 63-125 22 min. 2 (50) -3 100-200 34 min. 5 (100) -4 160-320 56 min. 5 (100) % % nA CTR will match within a ratio of 1.7:1 Switching Characteristics Linear Operation (without saturation) IF=10 mA, VCC=5 V, RC=75 , Typical -1 Turn on time Rise time Turn off time Fall time ton tr toff tf 3.0 2.0 2.3 2.0 -2 3.2 2.5 2.9 2.6 -3 3.6 2.9 3.4 3.1 -4 4.1 3.3 3.7 3.5 s s s s Switching Operation (with saturation) VCC=5 V, RC=1 , Typicall -1 IF = 20 mA Turn on time Rise time Turn off time Fall time ton tr toff tf 3.0 2.0 18 11 -2 IF = 10 mA 4.3 2.8 2.9 2.6 -3 IF = 10 mA 4.6 3.3 3.4 3.1 -4 IF = 5 mA 6.0 4.6 25 15 s s s s Figure 1. Forward voltage versus forward current 1.4 Figure 3. Normalized non-saturated and saturated CTR at TA=50C versus LED current 1.5 VF - Forward Voltage - V 1.2 1.1 1.0 0.9 0.8 0.7 .1 1 10 IF - Forward Current - mA 100 Ta = 85C Ta = 25C NCTR - Normalized CTR 1.3 Ta = -55C Normalized to: Vce = 5V, IF = 10mA, Ta = 25C CTRce(sat) Vce = 0.4V Ta = 50C 1.0 0.5 NCTR(SAT) NCTR 0.0 .1 1 10 IF - LED Current - mA 100 Figure 2. Normalized non-saturated and saturated CTR at TA=25C versus LED current 1.5 Figure 4. Normalized non-saturated and saturated CTR at TA=70C versus LED curent 1.5 NCTR - Normalized CTR NCTR - Normalized CTR Normalized to: Vce = 5V, IF = 10mA Ta = 25C CTRce(sat) Vce = 0.4V 1.0 Normalized to: Vce = 5V, IF = 10mA Ta = 25C CTRce(sat) Vce = 0.4V 1.0 0.5 NCTR(SAT) NCTR 0.0 .1 1 10 IF - LED Current - mA 100 0.5 Ta = 70C NCTR(SAT) NCTR .1 1 10 IF - LED Current - mA 100 0.0 ILD610 5-2 Figure 5. Normalized non-saturated and saturated CTR at TA=85C versus LED current 1.5 Figure 9. Switching timing IF NCTR - Normalized CTR 1.0 Normalized to: Vce = 10V, IF = 10mA, Ta = 25C CTRce(sat) Vce = 0.4V VO 0.5 Ta = 85C NCTR(SAT) NCTR .1 1 10 IF - LED Current - mA 100 tD tR tPLH VTH=1.5 V tF 0.0 tPHL tS Figure 10. Non-saturated switching schematic Figure 6. Collector-emitter current versus temperature and LED current 35 VCC=5 V F=10 KHz DF=50% Ice - Collector Current - mA 30 25 20 15 10 5 0 0 10 20 30 40 IF - LED Current - mA 50 60 25C 85C 70C 50C RL VO IF=10 mA Figure 11. Saturated switching time test waveform Input 0 tpdon ton tpdof tr ts toff tr 10% 50% 90% Figure 7. Collector-emitter leakage current versus temperature Iceo - Collector-Emitter - nA 10 10 10 5 4 3 Output td 0 10% 50% 90% 10 2 10 1 Vce = 10V TYPICAL 10 0 10 -1 10 -2 -20 0 20 40 60 80 100 Ta - Ambient Temperature - C Figure 8. Propagation delay versus collector load resistor tpLH - Propagation Delay - s 1000 T = 25C, IF = 10mA a Vcc = 5 V, Vth = 1.5 V tpHL 2.5 tpHL - Propagation Delay - s 100 2.0 10 tpLH 1 1.5 1.0 .1 1 10 100 RL - Collector Load Resistor - K ILD610 5-3 |
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