ISOCOM LTD (R) IECQ-CECC QC 88000-C003 COMPONENT ISSUE 4 SPECIFICATION March 2007 Component Specification For Ceramic Hermetically Sealed High Gain Optocouplers Up-to-date lists and bibliographical references of IEQC-CECC publications may be downloaded from www.iecq.org Further copies of this document may be obtained from: IEC International Electrotechnical Commission Commission Electrotechnique Internationale Box 131, rue de Varembe, CH 1211 Geneva 20, Switzerland For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 1 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) FOREWORD The IECQ Quality Assessment System for Electronic Components (IECQ) is composed of those member countries of the International Electrotechnical Commission (IEC) who wish to take part in a harmonized system for electronic components of assessed quality. IECQ is also known in some European member countries as IECQ-CECC. The object of the System is to facilitate international trade by the harmonization of the specifications and quality assessment procedures for electronic components, and by the grant of an internationally recognised Mark, or Certificate of Conformity. The components produced or services provided under the system are thereby acceptable in all member countries without further testing. This Component Specification is based upon the requirements of IEC Publication QC 001002-2, and has been prepared by: Isocom Ltd Hutton Close Crowther Industrial Estate Washington Tyne and Wear NE38 0AH Tel: Fax: +44 0191 4166 546 +44 0191 4155 055 and published under the authority of: BSI Product Services Maylands Avenue Hemel Hempstead Hertfordshire HP2 4SQ United Kingdom AMENDMENT RECORD Issue 1 - Changed Pages 4, 9 & 10 - Amendments 25/06/10 Issue 2 - Changed Pages 3, 4 & 5 - Amendments 05/07/10 Issue 3 - Changed Pages 3, 4, 5 & 6 - RoHS Compliant, Added CSM160/161/162-2 & Amendments 13/07/10 REQUIREMENTS The requirements for IECQ-CECC Component Specifications as detailed in QC 001002-2 Amendment 1 clause 5.4 are satisfied by the following data sheet. It should note that IECQ-CECC are not responsible for manufacturers declarations made in data sheets which fall outside the limits of approved detailed in IECQ-CECC certificates. This Component Specification is intended for use with applicable IECQ-CECC Assessment Specifications. Eg: QC 88000-A0001 For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 2 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Ceramic Hermetically Sealed High Gain Optocouplers 6N140A CD750 CD5731 CH370 CS700 CS5700 CSM141/A CSM160/161/162-2 CSM160/161/162-4 CSM1700 Features Applications Release to IECQ-CECC Military, high reliability system Hermetically Sealed Medical instruments High Density Packaging Mos, Cmos Applications 1500V DC withstand Test Voltage Logic Interfacing Low Input Requirements: 0.5mA Data Transmission High Current Transfer Ratio: 1000% Typical Transportation RoHS Compliant Description Each channel contains a light emitting diode which is optically coupled to an integrated high gain photon detector. The high gain output stage features an open collector output providing both lower saturation voltage and higher signalling speed than a conventional Photo-Darlington optocoupler. The supply voltage can be operated as low as 2.0V without adversely affecting the parametric performance. The High Current Transfer Ratio of the optocouplers makes them ideal for low input current, min 0.5mA, applications. The radiation immunity of the optocouplers compared to conventional photo transistor optocouplers is due to the shallow depth and small junctions offered by the IC process. The optocoupler family is also available in various package styles including 6, 8 and 16 pin DIP through hole, 16 pin surface mount DIP flat pack and a 6 Pin leadless ceramic chip carrier. The devices can be purchased with lead bend and plating options. ISOCOM optocouplers are offered on the basis of similarity of emitter and detector therefore the performance characterization is identical, subject to the limitations of the packages. The wafer die similarities apply to the optocouplers for high reliability screening and radiation testing. For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 3 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Selection Guide Package Styles and Configuration Options 5 pin Hybrid Package Lead Style 1 Channels Common Channel Wiring Isocom Part Numbers and Options Commercial CH370 Defense Level CH370/L2 Space Level Standard Gold Plate Finish Solder Dipped Butt Cut/Gold Plate Gull Wing/Soldered Crew Cut/Gold Plate CH370/L2S 6 Pad LCC 8 pin DIP 8 pin DIP 16 pin DIP 16 pin Flat Pack 1 1 2 4 2/4 CSM141A CSM1700 CSM141A/L2 CSM1700/L2 CSM141A/L2S CSM1700/L2S Gold Plate CS5700 CS700 CS5700/L2 CS700/L2 CS5700/L2S CS700/L2S Gold Plate Option 20 Option 10 Option 30 Option 60 CD750 CD5731 CD750/L2 CD5731/L2 CD750/L2S CD5731/L2S Gold Plate Option 20 Option 10 Option 30 Option 60 6N140A 6N140A/L2 6N140A/L2S Gold Plate Option 20 Option 10 Option 30 Option 60 CSM160/161/ 162 CSM160/161/ 162/L2 CSM160/161/ 162/L2S Gold Plate Functional Diagrams CH370 CSM141A CS5700 CS700 CD750 CD5731 6N140A CSM160/161 /162-2 5 pin Hybrid 1 Channel 6 Pad LCC 1 Channel 8 pin DIP 1 Channel 8 pin DIP 2 Channel 16 pin DIP 4 Channel 16 pin Flat Pack 2 Channel 6 5 1 4 2 3 CSM1700 CSM160/161 /162-4 6 Pad LCC 1 Channel 16 pin Flat Pack 4 Channel For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 4 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Outline Drawings 16 pin DIP, 4 Channel 16 pin Flat Pack, 2 and 4 Channel NOTE: DIMENSIONS IN MILLIMETERS 8 pin DIP 1 and 2 Channel For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 5 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) 6 Terminal LCC Surface Mount, 1 Channel 1.651 6.223 0.635 2.286 5 6 4 1 3 2 1.27 4.318 CSM141A 2.54 R = .2286 1.67 0.762 0.635 Device Marking XXXXXXX Isocom Part Number ISOCOM Manufacturer XXXX Date Code (XX year XX week) For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 6 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Hermetic Optocoupler Options Option 10 Description Surface mountable hermetic optocoupler with leads trimmed for butt joint assembly. This option is available on commercial hi-rel product in 8 and 16 pin DIP 20 30 Surface mountable hermetic optocoupler with leads cut and bent for gull wing assembly. This option is available on commercial and hi-rel product in 8 and 16 pin DIP. 60 Surface mountable hermetic optocoupler with leads trimmed for butt joint assembly. This option is available on commercial hi-rel product in 8 and 16 pin DIP For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 7 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Absolute Maximum Ratings Storage Temperature Operating Temperature Lead Soldering Temperature -65C to +150C -55C to +125C 260C for 10S, 1.6mm below seating plane where appropriate Input Diode Peak Forward Current Average Forward Current Reverse Voltage Power Dissipation 20mA 10mA 5V 35mW 1 mS duration, 500pps (See note 3) -0.5 to 20V 40mA 50mW -0.5 to 20V VCC (See note 1) IO (See note 2) VO (See note 1) Output Detector Supply Voltage Current Collector Power Dissipation Voltage Single Channel Schematic For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 8 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Electrical Characteristics TA = -55C to +125C U.O.S. All typical values at VCC = 5V, TA = 25C (each channel where appropriate). Parameter High Level Output Current (See notes 4 & 6) Lower Level Output Voltage (See note 4) High Level Supply Current Low Level Supply Current (See note 4) Input-Output Insulation Leakage Current (See notes 7 & 13) Input Forward Voltage (See note 4) Input Reverse Breakdown Voltage (See note 4) Propagation Delay Time to Logic High Output Symbol IOH IOHX VOL ICCH ICCL II-O VF BVR tPLH (See note 4) Propagation Delay Time to Logic Low Output IF = 1.6mA, TA = 25C IF = 4.0mA IR = 10A, TA = 25C RL = 4.7K, VCC = 5V, IF = 0.5mA, TA = 25C RL = 680, VCC = 5V, IF = 5mA, TA = 25C tPHL (See note 4) Current Transfer Ratio (See notes 4 & 5) Test Conditions IF = 2A, VO = VCC = 5.5V IF = 0.5mA, IOL= 1.5mA, VCC = 4.5V IF = 5mA, IOL= 10mA, VCC = 4.5V VCC = 18V, IF1 = IF2 = IF3 = IF4 = 0 VCC = 5.5, IF1 = IF2 = IF3 = IF4 = 0 VCC = 18V, IF1 = IF2 = IF3 = IF4 = 1.6mA VCC = 5.5V, IF1 = IF2 = IF3 = IF4 = 4mA RH = 45%, TA = 25C, t = 5S VIO = 1500Vdc RL = 4.7K, VCC = 5V, IF = 0.5mA, TA = 25C RL = 680, VCC = 5V, IF = 5mA, TA = 25C CTR IF = 0.5mA, VO = 0.4V, VCC = 4.5V IF = 1.6mA, VO = 0.4V, VCC = 4.5V IF = 5mA, VO = 0.4V, VCC = 4.5V Device Min - Type 0.001 Max 250 Units A - 0.1 0.15 0.1 V - 1.4 0.4 0.4 40 60 4 - - 8 1.0 A - 1.45 1.9 V 5 - - V - 8 60 S - 8 100 20 30 CSM160/1 CSM160/1 A mA CSM160/1 6N140 CS5700 CSM6730 CH370 CD750 CSM1700 CSM160/1 6N140 CS5700 CSM6730 CH390 CD750 CSM1700 CH370 CD750 CSM1700 CSM160 CSM161 CS5700 CSM6730 CH390 CD750 CSM1700 CS5700 CSM6730 CSM160/1 60 - 35 100 S 100 - 3 12 10 300 200 200 700 1000 600 5 - % For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 9 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Electrical Characteristics (Continued) Common Mode Transient Immunity at Logical High Output Level (See notes 4, 10 & 12) CMH Common Mode Transient Immunity at Logical Low Output Level (See notes 4, 10 & 12) CML VCC = 5V, TA = 25C, VCM = 50V p-p RL = 1.5K, IF = 0Ma RL = 2.2K, IF = 0mA 500 1000 - V/S 500 -1000 - V/S CH370 CS700 CSM1700 CSM6730 VCC = 5V, TA = 25C, VCM = 50V p-p RL = 1.5K, IF = 1.6mA RL = 2.2K, IF = 1.6mA CH370 CS700 CSM1700 CSM6730 Typical Characteristics TA = 25C Parameter Resistance Capacitance Input Capacitance Temperature Coefficient of Forward Voltage Input-Input Insulation Leakage Current Resistance Capacitance Symbol RIO CIO CIN VF TA II-I RI-I CI-I Test Conditions V10 = 500Vdc f = 1MHz f = 1MHz, VF = 0 IF = 1.6mA Notes 4&8 4&8 4 1 Min - Type 12 10 1.5 60 -1.8 Max - 45% Relative Humidity VII = 500Vdc, t = 5S VII = 500Vdc f = 1MHz 9 - 0.6 - Units pF pF mV/ C nA 9 9 - 10 1 - pF 12 Notes: 1. The ground pin should be the most negative voltage at the detector side. Keeping VCC as low as possible, but greater than 2.0V, will provide lowest total IOH over temperature. 2. Output power is collector output plus one fourth of total supply power. Derate at 1.66mW/C above 110C. 3. Derate IF at 0.33mA/C above 110C. 4. Each channel. 5. Current Transfer Ratio is defined as the ratio of output collector current, IO, to the forward LED input current, IF, times 100%. 6. IOHX is the leakage current resulting from channel to channel optical crosstalk. IF = 2A for channel under test. For all other channels, IF = 10mA. 7. Input pins are shorted together, and output pins are shorted together. 8. Measured between the LED anode and cathode shorted together and pins at output shorted together. 9. Measured between adjacent input pairs shorted together. 10. CMH is the maximum tolerable common mode transient to assure that the output will remain in a high logic state (i.e., VO > 2.0V). 11. CML is the maximum tolerable common mode transient to assure that the output will remain in the logic low state (i.e., VO< 0.8V). 12. In applications where dV/dt may exceed 50,000V/S (such as a static discharge), a series resistor, RCC, should be included to protect the detector IC's from destructively high surge currents. The recommended value is RCC = 1V k 0.6IF(mA) 13. This is a momentary withstand test, not an operating condition. For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 10 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) Electrical Characteristics For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 11 of 12 QC 88000-C001: 2007 ISOCOM LTD (R) For sales enquiries, or further information, please contact our sales office at: Isocom Ltd, Hutton Close, Crowther Industrial Estate, District 3, Washington, NE38 0AH Tel: +44 0191 4166 546 Fax: +44 0191 4155 055 (c)2007 Copyright reserved to Isocom Limited Page 12 of 12 QC 88000-C001: 2007