1617069-7

**KILOVAC Solid State Relays** 

## **DS13 SSR for loads up to 2A @ 60Vdc** 

## **Product Facts** 

- n **Standard options: short circuit/overload protection and control status.** 

- n **Optically coupled all solid state relay.** 

- n **TTL & CMOS compatible input.** 

- n **Low on-resistance power MOSFET output.** 

- n **Tested per MIL-PRF-28750D and approved to DSCC drawing 90091.** 

- n **All versions available with Tyco Electronics “W” level screening for KILOVAC relays.** 

DS13 series SSRs employ circuit protection and a control status provides a state of the art photovoltaic separate input control built-in test function which optical isolation and power status line . The overload provides a logic “0” when MOSFET output chips for feature provides protection the input circuit is energized ultra-reliable high speed of the relay, load and load and functional . The relay switching of DC loads up circuit wiring in the event of is packaged into a custom to 2 amps, with low on-rea sustained current overhermetically sealed lowsistance . Standard options load or short circuit while profile 8-pin ceramic DIP include integral the relay is on or when it is package, with through hole current overload/short turned on into a short . The or surface mount pins . 

|**KILOVAC Part No.   DSCC Dwg. No.**|**KILOVAC Part No.   DSCC Dwg. No.**|**KILOVAC Part No.   DSCC Dwg. No.**<br>**Relay Version**|
|---|---|---|
|**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|



Notes:  Add suffix “S” to part number for surface mount versions . Add suffix “T” to part number for tinned leads . 

Add suffix “W” to part number for lower screening level . 

## **2 Terminal Input Configuration** 

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Direct Drive<br>S1<br>R Series (+) Output |<br>Vcc OO 0 Load FO V Load<br>L__J<br>1 4<br>-<br>2<br>Control<br>F<br>8 5<br>Return | Load<br>Load<br>(-) Output L__4JFO Return<br>**----- End of picture text -----**<br>


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TTL Drive<br>R Series (+) Output<br>Vcc O L__JI Load bO V Load<br>1 4<br>2<br>Control<br>Ks /\<br>8 5<br>Return | Load<br>Load +O<br>Return<br>° > (-) Output L__J<br>O C TTL<br>Without Status<br>(+) Output 777<br>Vcc O Load FO V Load<br>1 4<br>V Control rm 2 L__J<br>Control<br>8 5<br>O Lams<br>Return rT Load<br>Load =e)<br>7 Return<br>(-) Output L__4J<br>**----- End of picture text -----**<br>


## **3 Terminal Input Configuration** 

**With Status** 

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V Status O<br>R Status<br>Vso O Status (+) Output r-77<br>Vcc O Output Load FO V Load<br>1 7 4<br>V Control O rem 2 L__4J<br>Control<br>8 5<br>Laer<br>Return | Load<br>Load<br>me) Return<br>(-) Output L__4J<br>**----- End of picture text -----**<br>


AEROSPACE, DEFENSE & MARINE /// HIGH PERFORMANCE RELAYS 

**KILOVAC Solid State Relays** 

## **DS13 SSR for loads up to 2A @ 60Vdc** (Continued) 

## **Environmental Characteristics** 

**Ambient Temperature Range:** Operating: -55°C to +105°C. Storage: -55°C to +125°C. 

**Vibration Resistance:** 100 G’s, 10-3,000 Hz. 

**Shock Resistance:** 1,500 G’s, 0.5 ms pulse. 

**Constant Acceleration Resistance:** 5,000 G’s. 

## **Mechanical Characteristics** 

**Weight (max.):** .07 oz. (2 grams) 

**Materials:** 

Case: DIP, hermetically sealed, ceramic **Pins:** Copper, gold plated 

|**DS13 SSR for loads up to 2A @ 60Vdc** (Continue|d)||
|---|---|---|
|**Electrical Specifcations(-55°C to +105°C unless otherwise**|**specifed)**||
|**Input (2 terminal confguration)**|||
|Input supply voltage range (Vcc)|3.8 -|32 Vdc (Notes 1 & 2, Figures 1 & 2)|
|Input current (max.) @ 5Vdc|15mAdc  (Notes 1 & 2, Figures 1 & 2)||
|Must turn-on voltage||3.8Vdc|
|Must turn-off voltage||1.5Vdc|
|Reverse voltage protection||-32Vdc|
|**Input (3 terminal confguration)**|||
|Control voltage range||0 - 18 Vdc|
|Control current (max.)||240µAdc @ 5V, 1mA @ 18V|
|Input supply voltage range (Vcc)|3.8 -|32 Vdc (Notes 1 & 2, Figures 1 & 2)|
|Input current (max.) @ 5Vdc|15mAdc  (Notes 1 & 2, Figures 1 & 2)||
|Must turn-on voltage<br>Must turn-off voltage<br>**I/O**||0.3Vdc<br>3.2Vdc|
|Dielectric Strength (min.)<br>Insulation Resistance (min.) @ 500Vdc<br>Capacitance (max.)<br>**Output**<br>Continuous load current (max.) @ 25°C, without short circuit protection<br>Continuous load current (max.) @ 25°C, with short circuit protection<br>Continuous load voltage (max.)<br>Transient blocking voltage (max.)<br>On resistance (max.) @ Tj= 25°C, IL= 100ma, with short circuit protection<br>On resistance (max.) @ Tj= 25°C, IL= 100ma, without short circuit protection<br>Output voltage drop (max.), with short circuit protection<br>Output voltage drop (max.), without short circuit protection<br>Off-state leakage current (max.) @ 60Vdc<br>Turn-on time (max.)<br>Turn-off time (max.)||1,000V rms<br>109ohms<br>10pF<br>2.0Adc (Figure 5, Note 3)<br>1.0Adc (Figure 5, Note 3)<br>60Vdc<br>80Vdc (Note 4)<br>0.45 ohm (Note 5, Figure 4)<br>0.22 ohm (Note 5, Figure 4)<br>0.6Vdc<br>0.75Vdc<br>100µAdc<br>1.5 ms (Figure 3)<br>.25 ms (Figure 3)|
|dv/dt (min.)||100V / µs|
|Electrical system spike||±600Vdc (Note 4)|
|Junction temperature (max.)||150°C|
|Thermal resistance (max.), junction to ambient||80°C/W|
|Thermal resistance (max.), junction to case||20°C/W|
|**Status**|||
|Status supply voltage||30Vdc|
|Status sink current (max.) @ Vstatus≤0.3Vdc||2mAdc (Note 7)|
|Status leakage current (max.) @ 15Vdc||4µAdc|
|**Short Circuit Protection**||See Figure 6, Note 7|
||||



**10** 

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PAGE 7 

**KILOVAC Solid State Relays** 

## **DS13 SSR for loads up to 2A @ 60Vdc** (Continued) 

**Figure 1 - Maximum Input Current vs. Input Voltage** 

**Figure 2 - Series Resistance vs. Vcc Supply Voltage (Note 1)** 

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18<br>15<br>12<br>9<br>6<br>3<br>0<br>0 5 10 15 20 25 30 40 50 60<br>Input Voltage, Vcc (Vdc)<br>Input Current (mA)<br>**----- End of picture text -----**<br>


**Figure 3 - Output Turn-on and Turn-off Timing** 

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V<br>Control High<br>Pin 2<br>Low<br>V<br>Output Off<br>90%<br>Pin 4-5<br>10%<br>On<br>T T<br>On Off<br>**----- End of picture text -----**<br>


**Figure 5 - Temperature Derating Curve** 

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2.0<br>DS13-1Y<br>DS13-1001<br>1.5<br>1.0<br>0.5 DS13-1000<br>DS13-1002<br>0.0<br>-55 15 25 35 45 55 65 75 85 95 105 115125<br>Ambient Temperature (°C)<br>Load Current (amps)<br>**----- End of picture text -----**<br>


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2000<br>1500<br>1000<br>500<br>0<br>0 5 10 15 20 25 30 35<br>Vcc (Volts)<br>Figure 4 - On-Resistance vs. Temperature (Note 6)<br>2.0<br>1.8<br>1.6<br>1.4<br>1.2<br>1.0<br>0.8<br>0.6<br>0.4<br>0.2<br>25 50 75 100 125<br>Junction Temperature (°C)<br>Figure 6 - Typical Current Trip Levels<br>5<br>4<br>3<br>+25°C<br>2 -55°C<br>+105°C<br>1<br>0<br>0.01 0.1 1 10 100 1000<br>Time (seconds)<br>R Series (ohms)<br> (NF)<br>Normalized On Resistance Factor<br>Surge Current (amps)<br>**----- End of picture text -----**<br>


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AEROSPACE, DEFENSE & MARINE /// HIGH PERFORMANCE RELAYS 

**KILOVAC Solid State Relays** 

## **DS13 SSR for loads up to 2A @ 60Vdc** (Continued) 

## **Figure 7 - Outline Dimensions** 

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Through-Hole Mount Version Surface Mount Version<br>.010 ± .002 .560 MAX. .560 MAX.<br>(.25 ± .05) (14.22) (14.22)<br>6 PLS 8 7 5<br>8 7 5<br>.485 +.010, –.005<br>(10.16 .400 ±± .015 .38) .395 MAX. (12.32 +.25, –.13) .395 MAX.<br>(10.03) .435 MAX. (10.03)<br>(11.05)<br>1 2 4<br>.010 ± .002 1 2 4<br>TOP INDEX MARK FOR PIN 1 (.64).025 (.25 6 PLS± .05) TOP INDEX MARK FOR PIN 1<br>6 PLS<br>SIDE INDEX MARK FOR PIN 1 SIDE INDEX MARK FOR PIN 1<br>.016 +.010, –.005 10<br>(.41 +.25, –.13) .155 MAX. .036 +.010, –.005 .155 MAX.<br>6 PLS (3.94) (.91 +.25, –.13) (3.94)<br>6 PLS<br>.150 ± .015 .125<br>(3.81 ± .38) (3.18)<br>6 PLS .100 .018 ± .002<br>.125 (2.54) .300 (.46 ± .05)<br>(3.18) (7.62) 6 PLS<br>.018 ± .002<br>.100<br>(.46 ± .05)<br>(2.54) .300 6 PLS<br>(7.62)<br>KILOVAC Solid State Relays<br>**----- End of picture text -----**<br>


## **Notes** 

1. 2 terminal input configuration is compatible with CMOS or open collector TTL (with pull-up resistor). For Vcc levels above 6Vdc, a series limiting resistor is required. See Fig. 2 for resistor value. Use standard resistor value equal to or less than value form the curve. 

2. Vcc = 5Vdc 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 permanent damage. Inductive loads must be diode suppressed. 

4. Transient blocking voltage & electrical system spike tests are performed per MIL-STD-704 (28Vdc systems). 

5. To determine the maximum on-resistance at any given junction temperature, multiply on-resistance at 25°C by normalized on-resistance factor from curve (Fig. 4). 

6. Overload testing per MIL-R-28750 is constrained to the limits imposed by the short circuit protection requirements of this specification and DSCC drawing 90091. Load circuit series inductance for “load shorted” mode of operation to be limited to 50mH max. Maximum repetition rate into a shorted load should not exceed 

- 10 Hz. To calculate maximum on-resistance at any temperature, use the following equation: R(on) = R(on) @ 25°C 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 Fig. 4. 

7. Proper operation of the status feedback requires a status pull-up resistor. Select the status resistor such that it limits status output current to 2mA: R status = V status – 0.3V / 2mA. 

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