SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A 100V, 150A, Solid State DC Contactor Applications: ● Main DC Bus Switch ● DC Motor Bus Switch ● Battery Disconnect ● Bus Discharge ● DC Contactor Description: Sensitron has developed a small footprint High Voltage/High Current DC solid state Relay/Contactor. This device incorporates the latest state of the art technology to reduce the “on” state power losses and voltage drop to a minimum. The device is a true four terminal relay, not needing additional power sources for bias. This device uses robust magnetic coupling to achieve high isolation, reliability, and long life. Unlike opto-isolation techniques this device will not degrade with time. The input control lead will accept any voltage from 4.6V to 36VDC. Features: ● 2000V Input to Output Isolation ● 100V Blocking, 150A Continuous Current ● 3000A Surge Capability o o ● -55 C to 100 C Operation ● Single wide range DC input signal 4.6V to 36V ● Low Power Control, 0.5W Typ. ● True Four Terminal Operation ● Low “on” state resistance 1.5 m-ohms ● Fast turn on/turn off, less than 1us ● High Current Terminals ● Three Point Mounting Plate o ● RθJC ≤ 0.33 C/W ● 1.4” x 2.6” x .5” Input Control Specifications: Parameter Description V control DC Control Voltage Between pins 1 and 2 I control Input Current at control pins 1 and 2, Vin = 4.6V to 36V P control Control Input Power Consumption Gain Iout/Iin, Vin=12V Vin=28V MIN 4.6 TYP MAX 36 Unit Volts 10 25 150 mA 0.5 0.69 Watt 3600 8400 ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 1 SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A 0.12 Iin(A) 0.1 0.08 0.06 0.04 0.02 0 0 10 20 30 40 Vin(Vdc) Fig. 1-Typical Input Current vs. Input Volt 0.6 0.5 Vin(Vdc) 0.4 0.3 0.2 0.1 0 0 5 10 15 20 25 30 35 40 Pin (w) Fig.2- Typical Control Input Power Output Specifications: Parameter Description Vout Blocking Voltage Across Pins 3 and 4 o I leak Output leakage at Vout=100V,Tj=25 C o Tj=150 C Iout “Contact” Current I surge Output Surge Current Capability o Ron “Contact Resistance” Io=150A, Tj=25 C o Tj=150 C V drop Voltage drop at Io=150A C out Capacitance, VDS=50 V, f=100kHz o I latch Over Current latch, at 25 C E AS Avalanche energy, single pulse V SD Reverse Diode Vf, Io=150 A, Tj=25 °C trr Reverse recovery time MIN 100 TYP MAX 250 1000 150 0 1200 0.0008 0.0017 0.29 4080 1200 740 1.3 100 ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 2 Unit Vdc uA dc Adc A peak Ohm Vdc pF A(peak) mJ Vdc ns SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A Switching Characteristics: Parameter Description ton “Contact” turn on time toff “Contact” turn off time tdon Delay from input command to contact on tdoff Delay from input command to contact off tdlatch Delay to latch after detection of Over Current Fswitch Repetitive on to off switching frequency MIN TYP 0.4 0.4 1.5 0.5 50 MAX 1 1 600 Block Diagram Fig. 3, Input vs. Output Timing Fig.4 – Over Current Fault Shut Down ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 3 Unit us us ms ms us Hz SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A Typical Vdrop vs. Current @Tj=25C Typical Vdrop vs. Current @Tj=150C Typical Ron vs. Temp Blocking Voltage vs. Temp Environmental Parameter Top Tstg Isolation Isolation RθJC Description Operating Temperature (base Plate) Storage Temperature Input to Output Input or Output to Case Thermal Resistance MIN -55 TYP -55 2000 2000 0.25 MAX 100 Unit o C 125 o 0.33 ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 4 C VDC VDC o C/W SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A Mechanical Outline Pin Assigments: Input – Apply a positive voltage to this pin with respect to pin Gnd to “close” the contacts. Gnd – This is the return pin for the Input control voltage. +OUTPUT – This is the positive terminal of the “contact”. -OUTPUT – this is the return terminal for the +OUTPUT pin. Note: ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 5 SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A 1. Input pins and output pins are isolated up to 2000VDC 2. The device may be damaged if the input polarity is reversed. 3. The “contact” is uni-polar; a voltage reversal will result in current flow in the internal diode. Application Notes: A. Input Bias The SSR150D010 will be energized and the “Contact” will be closed, when a positive potential of 4.6VDC to 36VDC is applied between Input and Gnd. The input power consumption will be constant through out the control voltage range therefore the contactor will draw more current at lower control voltages. DC Supply TTL with Buffer Input Driven from TTL with Open Drain Driver B. Output Load Connection The output circuit is completely floating therefore the Load can be connected to either output terminal. ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 6 SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A Load connected to +Output Terminal Load Connected to –Output Terminal C. Over Current Disable The SSR150D010 contains an Over Current latch which disables (opens) the contact whenever a large current in excess of 1200A is detected. The latch can only be reset be removing and reapplying the input control power. In noisy environments and in applications where high surge currents are encountered, the latch may be triggered prematurely. In these applications the latch circuit can be disabled by placing a short circuit between the over current disable terminals. D. Contact Protection The user must insure that the peak voltage rating of the SSR150D010 is not exceeded. The SSRXXDXXX family of devices switch at extremely fast speeds, therefore extra care must be taken to suppress voltage transients that are generated when interrupting high currents. Sensitron strongly advises the user to us a snubber network similar in design to the one shown below. This is an energy absorbing snubber that transfers the energy from any parasitic line inductance into the capacitor and then is dissipated through the resistor. The capacitor should be sized so that the captured energy does not charge the capacitor beyond the contacts rated voltage. ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 7 SENSITRON SEMICONDUCTOR SSR150D010 TECHNICAL DATA DATASHEET 5344, REV. A E. AC Operation The contactor can be used for AC loads if two devices are connected “back to back”. DISCLAIMER: 1- The information given herein, including the specifications and dimensions, is subject to change without prior notice to improve product characteristics. Before ordering, purchasers are advised to contact the Sensitron Semiconductor sales department for the latest version of the datasheet(s). 2- In cases where extremely high reliability is required (such as use in nuclear power control, aerospace and aviation, traffic equipment, medical equipment , and safety equipment) , safety should be ensured by using semiconductor devices that feature assured safety or by means of users’ fail-safe precautions or other arrangement . 3- In no event shall Sensitron Semiconductor be liable for any damages that may result from an accident or any other cause during operation of the user’s units according to the datasheet(s). Sensitron Semiconductor assumes no responsibility for any intellectual property claims or any other problems that may result from applications of information, products or circuits described in the datasheets. 4- In no event shall Sensitron Semiconductor be liable for any failure in a semiconductor device or any secondary damage resulting from use at a value exceeding the absolute maximum rating. 5- No license is granted by the datasheet(s) under any patents or other rights of any third party or Sensitron Semiconductor. 6- The datasheet(s) may not be reproduced or duplicated, in any form, in whole or part, without the expressed written permission of Sensitron Semiconductor. 7- The products (technologies) described in the datasheet(s) are not to be provided to any party whose purpose in their application will hinder maintenance of international peace and safety nor are they to be applied to that purpose by their direct purchasers or any third party. When exporting these products (technologies), the necessary procedures are to be taken in accordance with related laws and regulations. ©2015 Sensitron Semiconductor 221 West Industry Court Deer Park, NY 11729 (631) 586 7600, FAX 631 242 9798 www.sensitron.com [email protected] Page 8