PART NUMBER CH380 COMPONENT ISSUE 1 SPECIFICATION September 2013 Component Specification For Ceramic Hermetically Sealed, Radiation Hard High Speed Optocoupler M1077 IECQ Further copies of this document may be obtained from: ISOCOM LIMITED WASHINGTON, UK NE38 0AH www.isocom.uk.com 2007 Copyright reserved to Isocom Limited Page 1 of 11
Ceramic Hermetically Sealed, Radiation Hard High Speed Optocoupler CH380 CH380/L2 CH380/L2S Features Applications Released to European Standard and Complies to Mil Std Total Ionizing Dose Tested to 1MRad(si) Displacement Damage Tested to 3 MEV x10¹² Hermetically Sealed High Isolation Voltage 5 Pin Hybrid Package Low Input Requirements High Speed; Typically 2Mhz Space Radiation Equipment Military, high reliability system Medical instruments Mos, Cmos Applications Logic Interfacing Data Transmission Power Supply Modems Description These devices are single, hermetically sealed optically coupled isolators. Each channel is composed of a Gallium Arsenide infra-red emitting diode and a silicon phototransistor. The CH380 series are being used in environments encounted by space applications. It is manufactured to meet the JANS standard in conjunction with MIL-PRF-19500 procedures (please see next page for all other applicable specifications). Package styles for this device include 5 Pin Hybrid Package with surface mount, solder dip option available. These packages have a shield effect to cut off ambient light as they are designed for high density mounting applications. Therefore absolute maximum ratings, recommended operating conditions, electrical specifications and performance characteristics are identical for all units. Any exceptions, due to packaging variations and limitations, are as noted. 2007 Copyright reserved to Isocom Limited Page 2 of 11
Standards The following specifications have been included in the manufacturing of this product: Military Compliance Specifications MIL-PRF-19500 General Specification for Discrete Semiconductor Devices IECQ M1077 Military Compliance Standards MIL-STD-202 Test Method Standard Electronic and Electrical Component Parts MIL-STD-883 Test Method Standard Microcircuits MIL-STD-750 Test Methods for Semiconductor Devices ISO 9001:2008 Manufacturing of Optocouplers and Optoelectronic components. Single Channel Schematic 2007 Copyright reserved to Isocom Limited Page 3 of 11
Selection Guide Package Styles and Configuration Options Lead Style Package 5 pin Hybrid Channels 1 Common Channel Wiring Isocom Part Number and Options Commercial Defense Screen Level Space Screen Level Standard Gold Plate Finish CH380 CH380/L2 CH380/L2S Gold Plate Solder Dipped Option 20 Functional Diagrams CH380 5 pin Hybrid 1 Channel Device Marking ISOCOM XXXXXXX XXXX Manufacturer Isocom Part Number Date Code (XX year XX week) 2007 Copyright reserved to Isocom Limited Page 4 of 11
Outline Drawings 0.6 3.5 4.5 0.13 0.13 0.7 2.0 +0.2 +0.2 0.6 0.6 Absolute Maximum Ratings TA = 25 C U.O.S. Storage Temperature Operating Temperature Lead Soldering Temperature Input-to-Output Isolation Voltage Input Diode -65 C to +150 C -55 C to +125 C 260 C 1.6mm from case for 10S 500VDC Average Forward Current 20mA Reverse Voltage 7V Peak forward Current 40mA 1mS, Power Dissipation 36mW Output Transistor Supply Voltage Average Current Collector Current Power Dissipation 0.5V to 20V 8mA 16mA 40mW 2007 Copyright reserved to Isocom Limited Page 5 of 11
Electrical Characteristics Input Diode Electrical Characteristics TA = 25 C U.O.S. Parameter Symbol Test Conditions Min Type Max Units Current Transfer Ratio Vcc =4.5V, Vo=0.4V - hf (CTR) IF = 16mA, TA =25 C 17 - % IF = 16mA, Vo=0.4V 9 - Vcc =4.5V - % Logic low output voltage VOL Vcc =4.5V, IF = 16mA, Io=1.44mA - 0.3 0.4 V Logic high output current IoH IF = 0, Vo= Vcc=15V - 0.05 250 µa Logic high supply current ICCH IF = 0, Vo= OPEN - 0.05 10 µa Vcc=15V Logic low supply current ICCL Vcc=18V, IF = 16mA - 30 200 µa IF = 0 Input forward voltage VF IF = 16mA - 1.45 1.7 V Input reverse breakdown VBR IR = 10µA 3-7 Propagation Delay tphl - 0.1 0.8 µs RL = 1.9KOhms H-L Vcc = 5V Propagation Delay tplh - 0.3 0.8 µs IF = 16mA L-H Typical Characteristics (TA = 25 C, Vcc=5V) Parameter Symbol Test Conditions Notes Min Type Max Units Temperature Coefficient of VF IF = 20mA 1 - -1.9 - mv/ C Forward Voltage TA Input Capacitance CIN f = 1mhz, VF = 0 1-125 - pf Resistance (Input-Output) RI-O V1-0 = 500Vdc 1-10 12 - Ω Capacitance (Input-Output) CI-O f = 1MHz 1 & 4-1.0 - pf Input-Input Insulation Leakage II-I 45% Relative Humidity 5-1 - pa Current VH = 500Vdc, t = 5S Capacitance (Input-Input) CI-I f = 1MHz 5-0.6 - pf Transistor DC Current Gain hfe VO = 5V, IO = 3mA 1-130 - - Small Signal Current Transfer IO VCC = 5V, VO = 2V 1-20 - % Ratio IF Common Mode Transient Immunity at Logic Low Level Output CML IF = 16mA,RL = 8.2KΩ VCM = 10VP-P VO (max) = 0.8V 1 & 7 - -1000 - V/µS Common Mode Transient CMH IF = 0mA,RL = 8.2KΩ 1 & 6-1000 - V/µS Immunity at Logic High Level Output VCM = 10VP-P VO (max) = 2.0V Bandwidth BW RL = 100Ω 8-3 - MHz Notes (Apply typically to 16 pin package) 1. Each channel, where appropriate. 2. Current Transfer ratio is defined as the ratio of output collector current, IO, to the forward LED input current, IF, times 100%. CTR is known to degrade slightly over the unit s lifetime as a function of input current, temperature, signal duty cycle and system on time. It is recommended that designers allow at least 20-25% guard band for CTR degradation. 3. Measured between pins 1 through 8 shorted together, and pins 9 through 16 shorted together. 4. Measured between each input pair shorted together, and the output pins for that channel shorted together. 5. Measured between pins 3 and 4 shorted together, and pins 7 and 8 shorted together. 6. CMH is the steepest slope (dv/dt) on the leading edge of the common mode pulse, VCM, for which the output will remain in the logic high state (i.e., VO > 2.0V). 7. CML is the steepest slope (dv/dt) on the trailing edge of the common mode pulse, VCM, for which the output will remain in the logic low state (i.e., VO < 0.8V). 8. Bandwidth is the frequency at which the AC output voltage is 3dB below the low frequency asymptote. 9. This is a momentary withstand test, not an operating condition. 2007 Copyright reserved to Isocom Limited Page 6 of 11
Electrical Characteristics 2007 Copyright reserved to Isocom Limited Page 7 of 11
GROUP TESTING to MIL-STD 750 GROUP TEST MIL-STD-750 READ AND RECORD Group A SG1 Visual inspection & mechanical Method 2071 dimensions SG2 DC static test at 25 C yes SG3 DC static test at 125 C and 55 C yes SG4 Dynamic test at 25 C yes Group B SG 1 Physical dimensions Method 2066 SG 2 Solderability Method 2026 Resistance to solvents Method 1022 SG 3 Thermal Shock Method 1056 Cond. B, 25 cycles Temperature cycling Method 1051, 100 cycles, -55/+125 C Hermetic seal fine and gross leak Method 1071, Cond. H (fine), Cond. C (gross) Electrical measurement pre and post yes Decap internal visual inspection 2075 Bond strength Method 2037, Cond. D yes Die shear Method 2017 yes SG 4 Intermittent operation life Method 1037, 1042, Cond D, Tab.5-5 Hermetic seal fine and gross leak Method 1071, Cond. H (fine), Cond. C (gross) Electrical measurement pre and post yes Bond strength Method 2037, Cond. D yes SG 5 Acc. steady state operation life Method 1027 Electrical measurement pre and post yes Bond strength Method 2037, Cond. D yes Group C SG 2 Thermal Shock Method 1056, Cond. B, 25 shocks Temperature cycling Method 1051, Cond. C, 55/+125 C, 25 cycles (total 45 cycles Hermetic seal fine and gross leak including screening) Method 1071, Cond. H (fine), Cond. C (gross) Moisture resistance Method 1021 Electrical measurement pre and post yes SG 3 Mechanical shock Method 2016, nonoperating, 1500 G, 0.5 ms, 5 blows in each orientation (X1,Y1,Z1) Vibration Method 2056 SG 6 Constant acceleration Method 2006, at a peak level of 5000 G Electrical measurement pre and post yes Steady state operating life Not required as B5 is available on same lot 2007 Copyright reserved to Isocom Limited Page 8 of 11
A. ISOCOM High Speed Optoisolators families using samples of CH380 Figure below displays the average normalized CTR (the post-irradiated value divided by the pre-irradiated value) for five samples of Isocom CH380 versus the neutron equivalence fluencies for each tested value of IF (1, 2, 4, 6, 8 and 10 ma). Fig. 6. Values of [(CTRo/CTR) 1/3 1] for IF = 2 and 8 ma for CH380. A subset of the data in Fig. 6 (2 and 10 ma) are plotted in the format in Fig. 7 using a value of n that produces a best fit to a straight line with unit slope in a log-log plot. The best-fitting n for this data set is 1/3. Fig. 7. Values of [(CTRo/CTR) 1/3 1] for IF = 2 and 10 ma for CH380. 2007 Copyright reserved to Isocom Limited Page 9 of 11
100% SCREENING to MIL-STD 750 TEST MIL-STD-750 READ AND RECORD? Internal Visual 2072 Sealing (Fine Leak) 1071, Condition H1 (Gross Leak) 1071, Condition C Temp Cycling 1051, Condition B 55/+125 C, 20 Cycles. Const. Acceler 2006, 5000G, Y1 only. PIND 2052, Condition A Radiography 2076 Initial Electrical 125 C, 55 C, 25 C R & R HTRB 1039 Interim Electrical 25 C only R & R Burn-In 1039 Final Electrical 125 C, 55 C, 25 C R & R PDA Max. 5%, pre/post B1 Calculate & R electrical and delta at RT only (Fine Leak) 1071, Condition H1 (Gross Leak) 1071, Condition C Solder Dip Fine Leak Gross Leak 1071, Condition H1 1071, Condition C 2007 Copyright reserved to Isocom Limited Page 10 of 11
2007 Copyright reserved to Isocom Limited Page 11 of 11
2007 Copyright reserved to Isocom Limited Page 12 of 11
DISCLAIMER The information provided on the datasheet is for preliminary and general information only. We do not warrant that the information contained on the datasheet is suitable for your intended use, nor do we accept responsibility for loss suffered as a result of reliance by you upon the accuracy or currency of information contained on the datasheet. In particular, you should not make any investment or commercial decision on the basis of the information contained on the datasheet. You should obtain independent professional advice and make your own further enquiries before making any investment or commercial decision or taking any further action in any way related to the information contained on the datasheet. We are not aware of any inaccuracy in the information contained on the datasheet. However, we do not warrant the accuracy, adequacy or completeness of such information. We reserve the right to remove or alter any of the information contained on the datasheet at any time. However, we do not guarantee the currency of the information contained on the datasheet, nor do we undertake to keep the datasheet updated. ISOCOM Limited 48 Hutton Close Crowther Washington Tyne & Wear NE38 0AH United Kingdom T: +44 (0)191 416 6546 F: +44 (0)191 415 5055 E: sales@isocom.uk.com www.isocom.uk.com 2007 Copyright reserved to Isocom Limited Page 13 of 11