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| SDD800 DC Input Optocoupler DESCRIPTION The SDD800 is composed of two distinct optically isolated optocouplers in one compact 8 PDIP package. Each optocoupler consists of a Photo Darlington transistor optically coupled to an AlGaAs LED. Optical coupling between the input LED and output Photo Darlington allows for high isolation levels while maintaining low-level DC signal control capability. The SDD800 provides an optically isolated method of controlling many interface applications such as telecommunications, industrial control and instrumentation circuitry. FEATURES APPLICATIONS * * * * Two isolated optocouplers in one compact 8 pin DIP package High Load Voltage (Vceo = 300V MIN) High current transfer ratio (600-9000%) High input-to-output isolation package (5,000 Vrms) * * * * * Home Appliances Office Automation Equipment Telecom / Datacom Power Supplies Fax / Modems OPTIONS/SUFFIXES* ABSOLUTE MAXIMUM RATINGS* PARAMETER Storage Temperature Operating Temperature Continuous Forward Current Peak Forward Current Reverse Voltage UNIT C C mA A V mW MIN -55 -40 TYP MAX 125 100 50 1 6 200 * * * -H -S -TR .04" (10.16mm) lead spacing (VDE0884) Surface Mount Option Tape and Reel Option NOTE: Suffixes listed above are not included in marking on device for part number identification. SCHEMATIC DIAGRAM +/- LED 1 8 Output Power Dissipation Collector -/+ LED 2 7 Emitter Collector +/- LED 3 6 *The values indicated are absolute stress ratings. Functional operation of the device is not implied at these or any conditions in excess of those defined in electrical characteristics section of this document. Exposure to Absolute Ratings may cause permanent damage to the device and may adversely affect reliability. -/+ LED 4 5 Emitter APPROVALS * * UL / C-UL Approved, File # E201932 VDE Approved, License # 40011227 (c) 2004 Solid State Optronics * San Jose, CA www.ssousa.com * +1.408.293.4600 Page 1 of 5 SDD800 rev 1.40 (10/25/2004) SDD800 DC Input Optocoupler ELECTRICAL CHARACTERISTICS - 25C PARAMETER INPUT SPECIFICATIONS LED Forward Voltage Peak Forward Voltage Reverse Current Terminal Capacitance V V A pF 30 1.2 1.4 3.5 10 If = 20mA Ifm = 0.5A Vr = 4V V = 0, f = 1kHz UNIT MIN TYP MAX TEST CONDITIONS OUTPUT SPECIFICATIONS Collector-Emitter Breakdown Voltage Emitter-Collector Voltage Dark Current Floating Capacitance Saturation Voltage (Collector - Emitter) Current Transfer Ratio Rise Time Fall Time V V A pF V % s s 600 60 50 0.6 300 0.1 1 1 1.5 9000 Ic = 10uA Ie = 10uA Vce = 200V, If = 0 Vce = 0V, f = 1.0MHz If = 20mA, Ic = 5mA If = 1mA, Vce = 2V Ic = 20mA, Vce = 2V, RL = 100 ohms Ic = 20mA, Vce = 2V, RL = 100 ohms COUPLED SPECIFICATIONS Isolation Voltage Isolation Resistance Cut off Frequency V G kH z 5000 50 7 T = 1 minute DC 500V Ic = 2mA, Vcc = 5V, RL = 100 ohms (c) 2004 Solid State Optronics * San Jose, CA www.ssousa.com * +1.408.293.4600 Page 2 of 5 SDD800 rev 1.40 (10/25/2004) SDD800 DC Input Photo-Darlington Optocoupler PERFORMANCE DATA SDD800 Response Time vs. Load Resistance N = 100, Ambient Temperature = 25C SDD800 Forward Current vs. Ambient Temperature N = 100 Response Rise Time (us) Forward Current IF (mA) Ambient Temperature Ta (C) Load Resistance RL (K ohm) SDD800 Current Transfer Ratio vs. Forward Current N = 100, Ambient Temperature = 25C SDD800 Relative Current Transfer Ratio vs. Ambient Temperature N = 100 Forward Current IF (mA) Relative Current Transfer Ratio (%) Current transfer ratio CTR (%) Ambient Temperature Ta (C) SDD800 Collector Power Dissipation vs. Ambient Temperature N = 100 SDD800 Forward Current vs. Forward Voltage N = 100, Ambient Temperature = 25C Collector Power Dissipation Pc (mW) Ambient Temperature Ta (C) Forward Current IF (mA) Forward Voltage VF (V) (c) 2004 Solid State Optronics * San Jose, CA www.ssousa.com * +1.408.293.4600 Page 3 of 6 SDD800 rev 1.40 (10/25/2004) SDD800 DC Input Photo-Darlington Optocoupler PERFORMANCE DATA SDD800 Collector - Emitter Saturation Voltage vs. Forward Current N = 100, Ambient Temperature = 25C SDD800 Collector Current vs. Collector-Emitter Voltage N = 100, Ambient Temperature = 25C Collector-emitter Saturation Voltage Vce (V) Collector Current Ic (mA) Forward Current IF (mA) Collector-emitter Voltage VCE (V) SDD800 Collector Dark Current vs. Ambient Temperature N = 100 Collector Dark Current Iceo (A) Ambient Temperature Ta (C) (c) 2004 Solid State Optronics * San Jose, CA www.ssousa.com * +1.408.293.4600 Page 4 of 6 SDD800 rev 1.40 (10/25/2004) SDD800 DC Input Photo-Darlington Optocoupler MECHANICAL DIMENSIONS 8 PIN DUAL IN-LINE PACKAGE 8 PIN SURFACE MOUNT DEVICE END VIEW END VIEW TOP VIEW TOP VIEW BOTTOM VIEW/ BOARD PATTERN BOTTOM VIEW/ BOARD PATTERN (c) 2004 Solid State Optronics * San Jose, CA www.ssousa.com * +1.408.293.4600 Page 4 of 5 SDD800 rev 1.40 (10/25/2004) SDD800 DC Input Photo-Darlington Optocoupler DISCLAIMER Solid State Optronics (SSO) makes no warranties or representations with regards to the completeness and accuracy of this document. SSO reserves the right to make changes to product description, specifications at any time without further notice. SSO shall not assume any liability arising out of the application or use of any product or circuit described herein. Neither circuit patent licenses nor indemnity are expressed or implied. Except as specified in SSO's Standard Terms & Conditions, SSO disclaims liability for consequential or other damage, and we make no other warranty, expressed or implied, including merchantability and fitness for particular use. LIFE SUPPORT POLICY SSO does not authorize use of its devices in life support applications wherein failure or malfunction of a device may lead to personal injury or death. Users of SSO devices in life support applications assume all risks of such use and agree to indemnify SSO against any and all damages resulting from such use. Life support devices are defined as devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when used properly in accordance with instructions for use can be reasonably expected to result in significant injury to the user, or (d) a critical component in any component of a life support device or system whose failure can be reasonably expected to cause failure of the life support device or system, or to affect its safety or effectiveness. (c) 2004 Solid State Optronics * San Jose, CA www.ssousa.com * +1.408.293.4600 Page 5 of 5 SDD800 rev 1.40 (10/25/2004) |
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