PI2007-EVAL2 Cool-ORing® Series PI2007-EVAL2 12V/15A High Side Active ORing Evaluation Board User Guide ® Content Cool-ORing Series Page Introduction ......................................................... 1 Product Description ............................................ 2 Schematic ........................................................... 3 Bill of Material...................................................... 4 Test Procedure.................................................... 5 Recommended Material ...................................... 5 PCB Layout ......................................................... 8 PI2007-EVAL2 Evaluation Board featuring the Cool-ORing PI2007 Active ORing controller. Mechanical Drawing ............................................ 8 The PI2007-EVAL2 Evaluation Board is intended to acquaint the user with the benefits and features of the ® Cool-ORing PI2007 full function Active ORing solution. It is not designed to be installed in end-use equipment. Please read this document before setting up the PI2007-EVAL2 Evaluation Board and refer to the PI2007 product datasheet for device specifications, functional description and characteristics. During operation, the power devices and surrounding structures can be operated safely at high temperatures. Remove power and use caution when connecting and disconnecting test probes and interface lines to avoid inadvertent short circuits and contact with hot surfaces. When testing electronic products always use approved safety glasses. Follow good laboratory practice and procedures. Introduction The PI2007-EVAL2 allows the user to test the basic principle and operational characteristics of an Active ORing function in a redundant power architecture, while also experiencing the benefits and value of the PI2007 solution versus conventional Active ORing solutions. The PI2007EVAL2 evaluation board is configured to receive two independent power source inputs, per a typical redundant power architecture, through two Active ORing channels that are combined to form a redundant power output. Each channel contains a PI2007 controller and a 25V Nchannel power MOSFET. The MOSFET foot print can take an SO-8 or Power SO-8 MOSFET package. Each channel is capable of up to 15A. The PI2007-EVAL2 evaluation board is designed with optimized PCB layout and component placement to represent a realistic high density final design for an Picor Corporation • picorpower.com embedded high side Active ORing solution for 12V Bus (10V to 14V) applications requiring up to 15A. This evaluation board is intended as an easy and simple way to test the electrical and thermal performance of the PI2007 Active ORing controller. Both dynamic and steady state testing of the PI2007 can be completed on the PI2007-EVAL2 evaluation board, in addition to using the key features of the product. Dynamic testing can be completed under a variety of system level fault conditions to check for response time to faults. This document provides basic instructions for initial startup and configuration of the evaluation board. Further information on the functionality of the PI2007 can be found in the PI2007 product data sheet. PI2007-EVAL2 User Guide Rev. 1.1 Page 1 of 9 Cool-ORing® PI2007 Product Description The Cool-ORing PI2007 with an external industry standard 25V N-channel MOSFET provides a complete Active ORing solution designed for use in 12V Bus (10V to 14V) redundant power system architectures. The PI2007 controller with an N-channel MOSFET enables extremely low power loss with fast dynamic response to fault conditions, critical for high availability systems. The PI2007 controller with a low RDS(on) N-channel MOSFET provides very high efficiency and low power loss during steady state operation. The PI2007 controller provides an active low fault flag output to the system during excessive forward current or reverse current, or under VC under voltage condition. Figure 1 shows a photo of the PI2007-EVAL2 evaluation board, with two PI2007 controllers and two N-channel MOSFET used to form the two Active ORing channels. The board is built with two identical Active ORing circuits with options and features that enable the user to fully explore the capabilities of the PI2007 Active ORing controller. Terminals Maximum Rating Vin1, Vin2, 25V/15A Vout 25V/30A 1, 2 VL1, VL2 (R5=R6=1.5kΩ)* Figure 1: PI2007-EVAL2 Evaluation Board (1.8” x 1.8”) Description Vin1 Power source Input #1 or bus input designed to accommodate up to 15A continuous current. Vin2 Power source Input #2 or bus input designed to accommodate up to 15A continuous current. PI2007 (U1) Fault pin: Monitors U1 fault conditions. 2 PI2007 (U2) Fault pin: Monitors U2 fault conditions. VC1 PI2007 (U1) VC input: Leave this pin unconnected unless an alternative controller bias voltage. VC2 PI2007 (U2) VC input: Leave this pin unconnected unless an alternative controller bias voltage. VL1 Fault pin 1 LED supply VL2 Fault pin 2 LED supply Vout Output: Q1 and Q2 MOSFETs drain connection, connect to the load high side. Rtn 5.5V * VL1, VL2 voltage can be higher than 5.5V, but R5 and R6 values have to be increased to accommodate the LEDs Terminal 1 -0.3V to 17.3V / 10mA Return Connection: Three Rtn connections are available and are connected to a common point, the Ground plane. Input supplies Vin1, Vin2, and the output load at Vout should all be connected to their respective local Rtn connection. Table 1: PI2007-EVAL2 Evaluation Board Terminals Description Picor Corporation • picorpower.com PI2007-EVAL2 User Guide Rev. 1.1 Page 2 of 9 Schematic Figure 2: PI2007-EVAL2 Evaluation Board schematic. Picor Corporation • picorpower.com PI2007-EVAL2 User Guide Rev. 1.1 Page 3 of 9 Bill of Material Item QTY Ref. Designator Value/Part NO. Description Footprint Manufacturer 1 2 C1, C2, C3, C4 Not Installed MLCC Capacitor, X7R, 1uF,50V 1206 2 2 C5, C6 1μF MLCC Capacitor, X7R, 1uF,50V, 805 3 1 C7 22μF Electrolytic Capacitor, 22uF,100V Panasonic _E/F 4 1 C8 Not Installed MLCC Capacitor, 10uF,25V 1812 5 2 D1, D2 LTST-C191CKT LED, Red 0603 LED Lite-On 6 6 1, 2, VC1, VC2, VL1, VL2 1528 Turret Test point TURRET - 1528 Keystone Electronics 7 6 Rtn, Rtn, Rtn, Vin1, Vin2, Vout 1502 Turret Test point TURRET - 1502 Keystone Electronics 8 2 Q1, Q2 SI4630DY-T1-GE3 N-MOSFET,25V,40A PPAK SO-8 Siliconix 9 1 R1, R2 0Ω Resistor,0 Ω,1%,0.1W 0603 10 1 R3, R4 430Ω Resistor,430Ω, 1%, 0.125W 0805 11 1 R5, R6, R7, R8 Not Installed 12 2 R9, R10 1.5K Resistor,1.5K,1%,0.1W 603 13 2 U1, U2 PI2007-00-QEIG Picor Cool ORing Controller IC 3x3mm 10L TDFN Panasonic PICOR Table 2: PI2007-EVAL2 Evaluation Board Bill of Materials Ref. Designator C1, C2, C3, C4 Value/Part NO. Not Installed Functional Description Snubber to reduce voltage ringing when the device turns off Add the capacitors if a long harnesses are used to connect the power source or load to the board. C5, C6 1uF VC Bypass Capacitor C7 22uF Output (Load) Capacitor C8 Not Installed Output (Load) Capacitor, this capacitor can be installed if instead of C7 if the user requires a ceramic load capacitor, 1812 package can accommodate a high ceramic capacitors value at 25V rating. D1, D2 LTST-C191CKT To indicate a fault exists when it is on Q1, Q2 SI4630DY-T1-GE3 R1, R2 0Ω R3, R4 430Ω R5, R6, Not Installed Optional to use PI2007 external VC bias voltage, removing R3 and R4 when external bias voltage is used. R7, R8 Not Installed Optional to use PI2007 internal VC bias resistor (VR) by placing 0Ω resistor and removing R3 and R4 R15, R16 U1, U2 1.5K PI2007 ORing switch Gate resistor, optional to slow gate turn off time, higher value resistor will reduce gate pull down peak current VC bias resistor LED current limit resistor, selected to operate at 3.3V and 5.0V logic voltage. Replace R15 and R16 with the proper resistor value for different logic voltage. Cool ORing Controller Table 3: Component functional description Picor Corporation • picorpower.com PI2007-EVAL2 User Guide Rev. 1.1 Page 4 of 9 Test Procedure: Initial Test Set Up Baseline Test Procedure – PI2007 (Refer to Figure 3) PI2007-EVAL2 is designed with two bias circuit options, bias via 1% external resistor (R3 and R4) or via internal resistor (VR input). R3 and R4 resistors are installed (430Ω, 1%). 1. Recommended Material 1.1. Material Needed-Picor supplied 1.1.1. PI2007-EVAL2 1.1.2. PI2007 Product Datasheet 1.2. Recommended Users Supplied Equipment 1.2.1. Two DC power supplies: 0-20V; 20A each. 1.2.2. One low power logic voltage power supply 1.2.3. Load: electronic Load, Power resistors or actual load. 1.2.4. Multimeter. 1.2.5. Oscilloscope. 1.2.6. Appropriately sized interconnect cables. 1.2.7. Safety glasses. + Gate PS1 - 0-20V/20A Logic PS + PS3 12V/100mA + DC Electronic Load - + 30A PS2 - 0-20V/20A Figure 3: Layout configuration for a typical redundant power application using PI2007. Picor Corporation • picorpower.com PI2007-EVAL2 User Guide Rev. 1.1 Page 5 of 9 Before initial power-up follow these steps to configure the evaluation board for specific end application requirement: 3.6. Enable (turn on) PS3 power supply output. 3.7. Turn on the electronic load. 3.8. Verify that the load voltage (Vout) is few millivolts below 12V. This verifies that the Q1 MOSFET is in conduction mode. Note that PI2007 will not turn off the MOSFET unless it senses current in the reverse direction through the MOSFET. This means that if both input power source are turned on and both MOSFET are in on condition, then one off the power source is turned off, the associated PI2007 will not turn off the MOSFET unless the power source sinks current from the output when it turns off and cause a reverse current in the MOSFET that generates negative voltage equal or greater than 6mV. 2. 3.10. Enable (turn on) PS2 output. 3.11. Verify that both PS1 and PS2 are sharing load current evenly by looking at the supply current. Power supplies output may need adjustment to set current sharing between the supplies. 3.12. Disable (turn off) PS1, PS2, and PS3 outputs. Control Circuitry Bias: PI2007 control circuitry and the gate driver for the MOSFET are biased through the VC pin. An internal regulator clamps VC pin voltage with respect to PG pin (VVC-PG) to 11.7V typically. In a 12V application the input voltage can vary between 10V and 14V which is higher than the VC clamp voltage. A bias resistor between VC pin and input voltage is required to accommodate VC clamp. PI2007-EVAL2 has two options for the bias resistor. A 420Ω internal resistor connected between VC pin and VR pin, or 430Ω 1% external resistor (R3 and R4). R3 and R4 installed in PI2007-EVAL2. If the internal resistor is desired for the test, remove R3 and R4, and install 0Ω resistor (jumper) for R7 and R8 to connect PI2007 VR pin to its input. 3. 3.9. Verify that Vin2 is low. This verifies that Q2 MOSFET is off. Hook Up of the Evaluation Board 3.1. Connect the positive terminal of PS1 power supply to Vin1. Connect the ground terminal of PS1 to its local Rtn. Set the power supply to 12V. Keep PS1 output disabled, off. 3.2. Connect the positive terminal of PS2 power supply to Vin2. Connect the ground terminal of PS2 to its local Rtn. Set the power supply to 12V. Keep PS2 output disabled, off. 3.3. Connect the logic power supply PS3 positive terminal to VL1 and VL2. Connect the ground terminal of this power supply to a Rtn terminal. Set the power supply to the desired logic voltage level, 3.3V or 5V. Keep PS3 output disabled, off. 3.4. Connect the electronic load to the output between Vout and its local Rtn. Set the load current to 5A. 3.5. Enable (turn on) PS1 power supply output. Picor Corporation • picorpower.com 3.13. Enable (turn on) PS2 output then Enable and PS3 outputs. 3.14. Verify that Vout is few millivolts below 12V. This verifies that the MOSFET Q2 is in conduction mode. 3.15. D2 should be off. This verifies that there is no fault condition. 3.16. Verify that Vin1 is low. This verifies that the MOSFET (Q1) is off. 4. Input short circuit test: PI2007 has a very fast response (80ns) to a reverse current (Input short) fault condition. Measuring a short period event requires attention to the test set-up. Before proceeding, consider the following: 4.1. To emulate a real application, the BUS supplies for this test should have a solid output source such as a DC-DC converter that supplies high current and can be connected very close to the evaluation board to reduce stray parasitic inductance. Or use the prospective supply sources of the end application where the PI2007 will be used. Typical bench power supplies have slow response to output load change. In this test when the power supply output is shorted and then released, the bench power supply may produce high output voltage with high current capability that may damage the device under test. 4.2. Do not install Input capacitors (C1 and/or C2) in this test. 4.3. Output capacitor (C7) should be installed. 4.4. Place the scope probes very close to the MOSFET drain and source to measure Vout and Vin, and PI2007-EVAL2 User Guide Rev. 1.1 Page 6 of 9 make sure that the scope ground leads are very short. You may use a close by ground pad for the scope probe return, such as C1, C2, C3 and C4 Rtn pads. 4.5. Apply a short at one of the inputs (Vin1 or Vin2) when both controllers (U1 and U2) are on, PS1 and PS2 are enabled. The short can be applied electronically using a MOSFET connected between Vin and Rtn or simply by connecting Vin to Rtn. Then measure the response time between when the short being applied and the MOSFET being disconnected (or turned off). An example for PI2007 response time to an input short circuit is shown in Figure 4. Test Setup: DUT: PI2007-EVAL2 Vin1 = 12V Vin2 = 12V Output Load = 6A Test: Both input sources are turned on and sharing the load current, then applied a short for 1ms with fast turn on 1mΩ MOSFET between Vin1 and Rtn. Test purpose: To show the PI2007 response to a fault condition, where the output of the input source is shorted or tried to source current from the load (Vout) Figure 4: Plot of PI2007 response time to reverse current detection Picor Corporation • picorpower.com PI2007-EVAL2 User Guide Rev. 1.1 Page 7 of 9 PCB Layout Figure 5: PI2007-EVAL2 layout top layer. Scale 2.0:1 Figure 6: PI2007-EVAL2 layout bottom layer 2. Scale 2.0:1 Mechanical Drawing Figure 7: PI2007-EVAL2 evaluation board mechanical drawing Picor Corporation • picorpower.com PI2007-EVAL2 User Guide Rev. 1.1 Page 8 of 9 Warranty Vicor products are guaranteed for two years from date of shipment against defects in material or workmanship when in normal use and service. This warranty does not extend to products subjected to misuse, accident, or improper application or maintenance. Vicor shall not be liable for collateral or consequential damage. This warranty is extended to the original purchaser only. 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Vicor does not assume any liability arising out of the application or use of any product or circuit; neither does it convey any license under its patent rights nor the rights of others. Vicor general policy does not recommend the use of its components in life support applications wherein a failure or malfunction may directly threaten life or injury. Per Vicor Terms and Conditions of Sale, the user of Vicor components in life support applications assumes all risks of such use and indemnifies Vicor against all damages. Vicor’s comprehensive line of power solutions includes high density AC-DC and DC-DC modules and accessory components, fully configurable AC-DC and DC-DC power supplies, and complete custom power systems. Information furnished by Vicor is believed to be accurate and reliable. However, no responsibility is assumed by Vicor for its use. Vicor components are not designed to be used in applications, such as life support systems, wherein a failure or malfunction could result in injury or death. All sales are subject to Vicor’s Terms and Conditions of Sale, which are available upon request. Specifications are subject to change without notice. Vicor Corporation 25 Frontage Road Andover, MA 01810 USA Picor Corporation 51 Industrial Drive North Smithfield, RI 02896 USA Customer Service: [email protected] Technical Support: [email protected] Tel: 800-735-6200 Fax: 978-475-6715 Picor Corporation • picorpower.com PI2007-EVAL2 User Guide Rev. 1.1 Page 9 of 9