Figure 7 DC Solid State Relays 2A / 60 Vdc Outline Dimensions Through-Hole Mount Version Surface Mount Version DS13 Series .010 .560 MAX. .002 .560 MAX. 6 PLS 8 7 5 8 7 The DS13 series SSRs employ state of the art photo-voltaic optical isolation and power MOSFET output chips for 5 ultra-reliable high speed switching of DC loads up to 2 amps, with low on-resistance. Standard options include integral current overload/short circuit protection and a separate input control status line. The overload feature .400 .395 MAX. .015 .485 +.010 -.005 .395 MAX. .435 MAX. provides protection of the relay, load, and load circuit wiring in the event of a sustained current overload or short circuit while the relay is on or when it is tu rned on into a short. The control status provides a built-in test function which provides a logic (0) when the input circuit is energized and functional. The relay is packaged into a custom 1 2 4 1 TOP INDEX MARK FOR PIN 1 .025 6 PLS SIDE INDEX MARK FOR PIN 1 .016 .010 +.010 -.005 6 PLS .036 .155 MAX. 6 PLS .150 .015 6 PLS .002 2 .018 .300 Inches .002 .005 .010 .015 .016 .018 .025 .036 .100 mm 0.05 0.13 0.25 0.38 0.41 0.46 0.64 0.91 2.54 Inches mm .125 .150 .155 .300 .395 .400 .435 .485 .560 3.18 3.81 3.94 7.62 10.03 10.16 11.05 12.32 14.22 Features SIDE INDEX MARK FOR PIN 1 +.010 -.005 .155 MAX. 6 PLS .125 .018 .300 .100 hermetically sealed low profile 8-pin ceramic DIP package, with optional through hole or surface mount pins. TOP INDEX MARK FOR PIN 1 .100 .125 4 .002 6 PLS .002 6 PLS CII P/N Standard options : short circuit/overload protection and control status. Optically coupled all solid state relay TTL & CMOS compatible input Low on-resistance power MOSFET output Tested per MIL-R-28750 and approved to DESC dwg 90091. All versions available with CII "W" level screening. Relay Version DESC Dwg. P/N DS13-1Y 90091-008 Basic relay DS13-1000 90091-004 Relay w/short circuit protection DS13-1001 90091-006 Relay w/control status DS13-1002 90091-002 Relay w/short circuit protection and control status Note : add suffix "S" to P/N for surface mount versions 2 Terminal Input Configuration Notes : 1. Dimensions are in inches. (See table for metric equivalents.) 2. Weight : 2 gm max. 3. Case : DIP, hermetically sealed, ceramic. 4. Pins : Gold plated. S1 R Series R Series (+) Output Vcc Load (+) Output Vcc 4 1 Control VLoad 2 Control 1 4 8 5 Load VLoad Load Load Return 2 Notes 5 8 1. 2 terminal input configuration is compatible with CMOS or open collector TTL (with pull-up resistor). For Vcc levels above 6 Vdc, a series limiting resistor is required. See Figure 2 for resistor value. Use standard resistor value equal to or less than value from curve. 2. Vcc = 5 Vdc for all tests unless otherwise specified. 3. All DS13 Series relays may drive loads connected to either positive or negative referenced power supply lines. Reversing polarity of output may cause perma nent damage. Inductive loads must be diode suppressed. 4. Transient blocking voltage & electrical system spike tests are performed per MIL-STD-704 (28 Vdc systems). 5. To determine the maximum on-resistance at any given junction temperature, multiply on-resistance at 25C by normalized on-resistance factor from curve (Figure 4). 6. Overload testing per MIL-R-28750 is constrained to the limits imposed by the short circuit protection requirements of this specification and DESC drawing 90091. Load circuit series inductance for "load shorted" mode of operation to be limited to 50 mH max. Maximum repetition rate into a shorted load should not exceed 10Hz. To calculate maximum on-resistance at any temperature, use following equation : R(on) = R(on) @ 25C x NF (without short circuit protection) and R(on) = 0.2 x NF + .21 (with short circuit protection) where NF = normalized on-resistance factor from Figure 4. 7. Proper operation of the status feedback requires a s tatus pull-up resistor. Select the status resistor such that it limits status output current to 2mA : R status = V status - 0.3V / 2mA. July 1998 Return Load (-) Output Return Load Return (-) Output O C TTL Direct Drive TTL Drive 3 Terminal Input Configuration V Status (+) Output R Status Vcc Vso Status Output Vcc 1 V Control 7 Load VLoad Load Load Return (+) Output Load VLoad 4 V Control 1 4 8 5 2 Control 2 Control Return 5 8 Return Load (-) Output With Status Load Return (-) Output Without Status Communications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www.ciidiv.comCommunications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www (2 Terminal Configuration) Input (3 Terminal Configuration) Input supply voltage range (Vcc) Input current (max.) @ 5V Must turn-on voltage Must turn-off voltage Reverse voltage protection Control voltage range Control current (max.) @ 5V Control current (max.) @ 18V Input supply voltage (Vcc) range Input current (max.) @ 5V Must turn-on voltage Must turn-off voltage Dielectric strength (min.) Insulation resistance (min.) @ 500 Vdc Capacitance (max.) I/O 3.8 - 32 Vdc 15 mAdc 3.8 Vdc 1.5 Vdc -32 Vdc 0 - 18 Vdc 250 Adc 1 mAdc 3.8 - 32 Vdc 15 mAdc 0.3 Vdc 3.2 Vdc } Notes 1 & 2 Figures 1 & 2 Figure 2 Maximum Input Current vs. Input Voltage Series Resistance vs. Vcc Supply Voltage (Note 1) 18 2000 15 } Notes 1 & 2 Figures 1 & 2 1500 R Series (ohms) Input Figure 1 (-55C to +105C unless otherwise specified) Input Current (mA) Electrical Specifications 12 9 6 1000 500 3 1000 Vrms 10 9ohms 10 pF 0 0 0 5 10 15 20 25 30 40 50 60 0 5 10 15 Input Voltage, Vcc (Vdc) Status supply voltage Status sink current (max.) @ Vstatus 0.3 < Vdc Status leakage current (max.) @ 15 Vdc Short Circuit Protection 35 Figure 4 Figure 5, Note 3 60 Vdc 80 Vdc 0.45 ohms 0.22 ohms Output Turn-on and Turn-off Timing Note 4 Note 5, Figure 4 VControl Note 5, Figure 4 High Pin 2 Low V Output 0.6 Vdc 90% Pin 4-5 10% 0.75 Vdc 100 Adc 1.5 mSec .25 mSec 100 V/Sec 600 Vdc 150C 80C/W 20C/W 30 Vdc 2 mAdc 4 Adc See Figure 6, Note 7 -55C to +105C -55C to +125C 100 g, 10 to 3000 Hz 1500 g, 0.5 mSec pulse 5000 g On T T Off On Figure 3 Figure 3 Off Normalized On Resistance Factor (NF) On-Resistance vs. Temperature (Note 6) Environmental Specifications Ambient temperature (operating) Ambient temperature (storage) Vibration Shock Constant acceleration 30 Vcc (Volts) Figure 3 1.0 Adc 25 Figure 5, Note 3 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 25 50 75 100 125 Junction Temperature (C) Note 4 Figure 5 Figure 6 Temperature Derating Curve Typical Current Trip Levels 5 Note 7 2.0 DS13-1Y DS13-1001 1.5 1.0 DS13-1000 DS13-1002 0.5 0.0 -55 15 25 35 45 55 65 75 85 95 105 115 125 Ambient Temperature (C) Surge Current (amps) Status 2.0 Adc Load Current (amps) Output Continuous load current (max.) @ 25C (without short circuit protection) Continuous load current (max.) @ 25C (with short circuit protection) Continuous load voltage (max.) Transient blocking voltage (max.) On resistance (max.) @ Tj = 25C, I L = 100 mA (with short circuit protection) On resistance (max.) @ Tj = 25C, I L = 100 mA (without short circuit protection) Output voltage drop (max.) (with short circuit protection) Output voltage drop (max.) (without short circuit prot ection) Leakage current (max.) @ V = 60 Vdc Turn-on time (max.) Turn-off time (max.) dv/dt (min.) Electrical system spike Junction temperature (max.) Thermal resistance (max.), junction to ambient Thermal resistance (max.), junction to case 20 4 3 -55C +25C 2 +105C 1 0 0.01 0.1 1 10 100 1000 Time (seconds) Communications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www.ciidiv.comCommunications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www (2 Terminal Configuration) Input (3 Terminal Configuration) Input supply voltage range (Vcc) Input current (max.) @ 5V Must turn-on voltage Must turn-off voltage Reverse voltage protection Control voltage range Control current (max.) @ 5V Control current (max.) @ 18V Input supply voltage (Vcc) range Input current (max.) @ 5V Must turn-on voltage Must turn-off voltage Dielectric strength (min.) Insulation resistance (min.) @ 500 Vdc Capacitance (max.) I/O 3.8 - 32 Vdc 15 mAdc 3.8 Vdc 1.5 Vdc -32 Vdc 0 - 18 Vdc 250 Adc 1 mAdc 3.8 - 32 Vdc 15 mAdc 0.3 Vdc 3.2 Vdc } Notes 1 & 2 Figures 1 & 2 Figure 2 Maximum Input Current vs. Input Voltage Series Resistance vs. Vcc Supply Voltage (Note 1) 18 2000 15 } Notes 1 & 2 Figures 1 & 2 1500 R Series (ohms) Input Figure 1 (-55C to +105C unless otherwise specified) Input Current (mA) Electrical Specifications 12 9 6 1000 500 3 1000 Vrms 10 9ohms 10 pF 0 0 0 5 10 15 20 25 30 40 50 60 0 5 10 15 Input Voltage, Vcc (Vdc) Status supply voltage Status sink current (max.) @ Vstatus 0.3 < Vdc Status leakage current (max.) @ 15 Vdc Short Circuit Protection 35 Figure 4 Figure 5, Note 3 60 Vdc 80 Vdc 0.45 ohms 0.22 ohms Output Turn-on and Turn-off Timing Note 4 Note 5, Figure 4 VControl Note 5, Figure 4 High Pin 2 Low V Output 0.6 Vdc 90% Pin 4-5 10% 0.75 Vdc 100 Adc 1.5 mSec .25 mSec 100 V/Sec 600 Vdc 150C 80C/W 20C/W 30 Vdc 2 mAdc 4 Adc See Figure 6, Note 7 -55C to +105C -55C to +125C 100 g, 10 to 3000 Hz 1500 g, 0.5 mSec pulse 5000 g On T T Off On Figure 3 Figure 3 Off Normalized On Resistance Factor (NF) On-Resistance vs. Temperature (Note 6) Environmental Specifications Ambient temperature (operating) Ambient temperature (storage) Vibration Shock Constant acceleration 30 Vcc (Volts) Figure 3 1.0 Adc 25 Figure 5, Note 3 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 25 50 75 100 125 Junction Temperature (C) Note 4 Figure 5 Figure 6 Temperature Derating Curve Typical Current Trip Levels 5 Note 7 2.0 DS13-1Y DS13-1001 1.5 1.0 DS13-1000 DS13-1002 0.5 0.0 -55 15 25 35 45 55 65 75 85 95 105 115 125 Ambient Temperature (C) Surge Current (amps) Status 2.0 Adc Load Current (amps) Output Continuous load current (max.) @ 25C (without short circuit protection) Continuous load current (max.) @ 25C (with short circuit protection) Continuous load voltage (max.) Transient blocking voltage (max.) On resistance (max.) @ Tj = 25C, I L = 100 mA (with short circuit protection) On resistance (max.) @ Tj = 25C, I L = 100 mA (without short circuit protection) Output voltage drop (max.) (with short circuit protection) Output voltage drop (max.) (without short circuit prot ection) Leakage current (max.) @ V = 60 Vdc Turn-on time (max.) Turn-off time (max.) dv/dt (min.) Electrical system spike Junction temperature (max.) Thermal resistance (max.), junction to ambient Thermal resistance (max.), junction to case 20 4 3 -55C +25C 2 +105C 1 0 0.01 0.1 1 10 100 1000 Time (seconds) Communications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www.ciidiv.comCommunications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www Figure 7 DC Solid State Relays 2A / 60 Vdc Outline Dimensions Through-Hole Mount Version Surface Mount Version DS13 Series .010 .560 MAX. .002 .560 MAX. 6 PLS 8 7 5 8 7 The DS13 series SSRs employ state of the art photo-voltaic optical isolation and power MOSFET output chips for 5 ultra-reliable high speed switching of DC loads up to 2 amps, with low on-resistance. Standard options include integral current overload/short circuit protection and a separate input control status line. The overload feature .400 .395 MAX. .015 .485 +.010 -.005 .395 MAX. .435 MAX. provides protection of the relay, load, and load circuit wiring in the event of a sustained current overload or short circuit while the relay is on or when it is tu rned on into a short. The control status provides a built-in test function which provides a logic (0) when the input circuit is energized and functional. The relay is packaged into a custom 1 2 4 1 TOP INDEX MARK FOR PIN 1 .025 6 PLS SIDE INDEX MARK FOR PIN 1 .016 .010 +.010 -.005 6 PLS .036 .155 MAX. 6 PLS .150 .015 6 PLS .002 2 .018 .300 Inches mm Inches mm .002 .005 .010 .015 .016 .018 .025 .036 .100 0.05 0.13 0.25 0.38 0.41 0.46 0.64 0.91 2.54 .125 .150 .155 .300 .395 .400 .435 .485 .560 3.18 3.81 3.94 7.62 10.03 10.16 11.05 12.32 14.22 Features SIDE INDEX MARK FOR PIN 1 +.010 -.005 .155 MAX. 6 PLS .125 .018 .300 .100 hermetically sealed low profile 8-pin ceramic DIP package, with optional through hole or surface mount pins. TOP INDEX MARK FOR PIN 1 .100 .125 4 .002 6 PLS .002 6 PLS CII P/N Standard options : short circuit/overload protection and control status. Optically coupled all solid state relay TTL & CMOS compatible input Low on-resistance power MOSFET output Tested per MIL-R-28750 and approved to DESC dwg 90091. All versions available with CII "W" level screening. Relay Version DESC Dwg. P/N DS13-1Y 90091-008 Basic relay DS13-1000 90091-004 Relay w/short circuit protection DS13-1001 90091-006 Relay w/control status DS13-1002 90091-002 Relay w/short circuit protection and control status Note : add suffix "S" to P/N for surface mount versions 2 Terminal Input Configuration Notes : 1. Dimensions are in inches. (See table for metric equivalents.) 2. Weight : 2 gm max. 3. Case : DIP, hermetically sealed, ceramic. 4. Pins : Gold plated. S1 R Series R Series (+) Output Vcc Load (+) Output Vcc 4 1 Control VLoad 2 Control 1 4 8 5 Load VLoad Load Load Return 2 Notes 5 8 1. 2 terminal input configuration is compatible with CMOS or open collector TTL (with pull-up resistor). For Vcc levels above 6 Vdc, a series limiting resistor is required. See Figure 2 for resistor value. Use standard resistor value equal to or less than value from curve. 2. Vcc = 5 Vdc for all tests unless otherwise specified. 3. All DS13 Series relays may drive loads connected to either positive or negative referenced power supply lines. Reversing polarity of output may cause perma nent damage. Inductive loads must be diode suppressed. 4. Transient blocking voltage & electrical system spike tests are performed per MIL-STD-704 (28 Vdc systems). 5. To determine the maximum on-resistance at any given junction temperature, multiply on-resistance at 25C by normalized on-resistance factor from curve (Figure 4). 6. Overload testing per MIL-R-28750 is constrained to the limits imposed by the short circuit protection requirements of this specification and DESC drawing 90091. Load circuit series inductance for "load shorted" mode of operation to be limited to 50 mH max. Maximum repetition rate into a shorted load should not exceed 10Hz. To calculate maximum on-resistance at any temperature, use following equation : R(on) = R(on) @ 25C x NF (without short circuit protection) and R(on) = 0.2 x NF + .21 (with short circuit protection) where NF = normalized on-resistance factor from Figure 4. 7. Proper operation of the status feedback requires a s tatus pull-up resistor. Select the status resistor such that it limits status output current to 2mA : R status = V status - 0.3V / 2mA. July 1998 Return Load (-) Output Return Load Return (-) Output O C TTL Direct Drive TTL Drive 3 Terminal Input Configuration V Status (+) Output R Status Vcc Vso Status Output Vcc 1 V Control 7 Load VLoad Load Load Return (+) Output Load VLoad 4 V Control 1 4 8 5 2 Control 2 Control Return 5 8 Return Load (-) Output With Status Load Return (-) Output Without Status Communications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www.ciidiv.comCommunications Instruments, Inc. 1396 Charlotte Hwy. P.O. Box 520 Fairview, N.C. 28730 Phone 828-628-1711 Fax 828-628-1726 E-mail : info@ciidiv.com Internet : http://www