OLH5600 OLH5601 6N134 6N137 HCPL2601 HCPL5600/01 R/H50 - Datasheet Archive

 

ISO LINK Hermetic High CMR / High Speed Optocoupler 8 2 VCC 8 ANODE 7 0.390 ±0.005 7 6 5 s VE 0.320 Max. OLH XXXX XXYY

 

OLH5600 OLH5600 / 5601 ISO LINK Hermetic High CMR / High Speed Optocoupler 8 2 VCC 8 ANODE 7 0.390 ±0.005 7 6 5 s VE 0.320 Max. OLH XXXX XXYY 0.300 Typ. VOUT 6 1 CATHODE 2 3 4 0.010 ±0.002 GND 3 Shield 5 0.020 Min. 0.150 Max. SCHEMATIC TRUTH TABLE INPUT ENABLE OUTPUT H (on) H L L (off) H H H (on) L H L (off) L H Features Rugged, reliable hermetic DIP package Performance guaranteed over full military temperature range High isolation voltage, 3000 Vdc High speed: 55 ns propagation delay Open collector output High common mode rejection Radiation tolerant design 0.125 Min. 0.018 ±0.002 0.100 ±0.010 PACKAGE OUTLINE Description The OLH5600 OLH5600 and 5601 are hermetic 8-pin DIP optocouplers for high speed digital applications. The OLH5601 OLH5601 product is a 100% hi-rel screened version of the OLH5600 OLH5600. Each unit consists of an AlGaAs LED optically coupled to an integrated photodetector providing 3000Vdc electrical isolation between input and output. An internal shield provides excellent common mode rejection performance. These products are functionally compatible to 6N134 6N134, 6N137 6N137, HCPL2601 HCPL2601 and HCPL5600/01 HCPL5600/01 optocouplers. Radiation data for these products are presented in Application Note 1003. Special CMR selection and lower threshold current are available upon request. NOTES: 1. Measured between pins 1, 2, 3, 4 shorted together and pins 5, 6, 7, 8 shorted together. 2. A ceramic capacitor (.01 to 0.1 µF) is required between pins 5 and 8. Absolute Maximum Ratings Coupled Input to Output Isolation Voltage1 Storage Temperature Range Operation Temperature Range Lead Solder Temperature (1.6 mm below seating plane) Total Package Power Dissipation ± 3000 Vdc -65°C to +150°C -55°C to +125°C 260°C for 10 sec. 350 mW Input Diode Average Input Current Peak Forward Current ( 1mS duration ) Reverse Voltage Power Dissipation 20 mA 40 mA 5.0 V 35 mW Output Detector Average Output Current Supply Voltage, Vcc Output Voltage, Vout Enable Input Voltage, Ve Power Dissipation 25 mA 7V 7V 5.5 V 40 mW ELECTRICAL CHARACTERISTIC ( TA = - 55 °C to +125 °C, Unless Otherwise Specified ) Parameter Low Level Output Voltage Symbol Min VOL Typ. Max Units 0.3 0.6 Test Conditions Fig. Note V VCC = 5.5V, IOL =10mA, IF =10mA 2 2 High Level Output Current I OH 5 250 µA VCC =VO=5.5V, IF =250 µA 2 High Level Supply Current ICCH 10 14 mA VCC =5.5V, IF =0mA 2 Low Level Supply Current ICCL 15 18 mA VCC =5.5V, IF =10mA 2 Low Level Enable Current I EL -1.5 -2.0 mA VCC =5.5V, VE = 0.5 V High Level Enable Voltage V EH Low Level Enable Voltage V EL 2.0 V VF Input Reverse Breakdown Voltage BVR Input to Output Leakage Current I Input to Output Capacitance CI-O t PHL 55 Propagation Delay Time Logic Low to High t PLH 60 Propagation Delay Time , VEH to V EL t EHL Propagation Delay Time , VEL to V EH VCC = 5.5v 2.2 V IF =10mA IR =10µA 1.0 Propagation Delay Time Logic High to Low V V Input Forward Voltage VCC = 5.5v 0.8 1.6 5 1 µA R/H50 R/H50%,TA=25°C,VI-O= 3KVdc,t=1s pF f = 1 MHz 140 ns IF =13mA, VCC =5V, RL =510 3,4,5 2 140 ns IF =13mA, VCC =5V, RL =510 3,4,5 2 35 ns IF =13mA,VCC =5V,RL =510,VEH= 3V 2 t ELH 35 ns IF =13mA,VCC =5V,RL =510,VEL= 0V 2 Output Rise Time (10 - 90%) tr 35 ns IF =13mA, VCC =5V, RL =510 2 Output Fall Time (90 - 10%) tf 35 ns IF =13mA, VCC =5V, RL =510 2 1.0 I-O Common Mode Transient Immunity at High Output Level CM H 5 >10 Common Mode Transient Immunity at Low Output Level CM L 5 >10 KV/µs VCM =350V peak, VO (min.) = 2V, RL =510,IF =0mA, TA =25°C KV/µs V =350V peak, V (min.)=.8V, CM O RL=510, IF =10mA, TA =25°C 1 2 2 ALL TYPICAL @ TA = 25°C TYPICAL PERFORMANCE CURVES 2.0 NORMALIZED T = TO: 25°C A VCC= 5.5V VOL = 0.6V IOL = 10mA IFT = 3 mA TYPICAL 1.8 2.2 I F = 10mA 2.0 NORMALIZED I FT FORWARD VOLTAGE (V) 2.4 1.8 1.6 1.6 1.4 1.2 1.0 0.8 1.4 0.6 1.2 -75 -50 -25 0 25 50 75 0.4 -75 -50 -25 0 25 50 75 100 125 150 AMBIENT TEMPERATURE (°C) 100 125 150 AMBIENT TEMPERATURE ( °C) Fig. 2 - Normalized Input Trigger Current vs. Temperature Fig. 1 - Input Diode Forward Characteristic 160 Vcc = 5V RL = 510 T A =25°C 400 200 100 80 60 t PLH t PHL 40 Vcc = 5V RL= 510 140 PROPAGATION DELAY (nS) PROPAGATION DELAY (nS) 1000 800 600 120 t PLH I F = 13 mA 100 80 60 40 t PHL I F = 13 mA 20 20 0 10 -75 2 4 6 8 10 IF (mA) 12 14 16 Fig. 3 - Propagation Delay vs. Input Forward Current. -50 -25 0 25 50 100 125 150 Fig. 4 - Propagation Delay vs. Temperatur IF INPUT IF 75 AMBIENT TEMPERATURE ( °C) + 5V PULSE GENERATOR RL Zo =50 tr = 5ns Vo .1 uF IF Monitor VOUT 1.5 V t PHL t VOL PLH Fig. 5 - Switching Test Circuit 50 Shield