NovalithICTM H-Bridge Demo Board Version 2.2 (BTN89xxTA) Demo Board Description V1.0, 2011-09-23 Automotive Power NovalithICTM H-Bridge Demo Board Version 2.2 (BTN89xxTA) General Description Figure 1 Demo board (top view) 1 General Description The NovalithIC H-Bridge/Dual-Halfbridge Demo Board contains two NovalithICs used as two half-bridges or in a typical H-bridge configuration including peripheral components and reverse polarity protection. Control signals can be supplied via a 26 pin header connector. The board is suitable for all members of the NovalithIC family (BTN89xxTA). 1.1 Layout Considerations Special care has been taken to the PCB layout to minimize stray inductances in the power bridge design as it is necessary in all switched high power bridges. The NovalithICTM has no separate pin for power ground and logic ground. Therefore it is recommended to assure that the offset between the ground connection of the slew rate resistor, the current sense resistor and ground pin of the device (GND / pin 1) is minimized. The voltage offset between the GND pins of the two half bridges should be small as well. In this board this is achieved by positioning the two NovalithICs in a way that the GND pins are facing each other and by routing the high current traces from the 470F supply capacitor to the bridges so that the area spanned by the loop is as small as possible. A ceramic capacitor from VS to GND close to each half bridge is implemented to provide current for the switching phase via a low inductance path and therefore reducing noise and ground bounce. The digital inputs are protected from excess currents (e.g. caused by induced voltage spikes) by 10 k series resistors. Demo Board Description 3 V1.0, 2011-09-23 NovalithICTM H-Bridge Demo Board Version 2.2 (BTN89xxTA) General Description 1.2 Connector Pin Assignment Figure 2 Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 1 3 5 7 9 11 13 15 17 19 21 23 25 Header connector (top view) Signal Description 1 IN1 Input of IC1 2 INH1 Inhibit of IC1 3 IN2 Input of IC2 4 INH2 Inhibit of IC2 17 R_ID Output of "board id" voltage divider 18 AGND 20 GND 21 IS2 22 VBAT 23 IS1 Current sense of IC1 24 5V 5V coming from control board / starter kit 25 GND GND 26 GND GND others NC 1.3 Jumper Analog GND GND Current sense of IC2 VBAT going to control board / starter kit Not connected Jumper Settings Description JP1 Connects INH1 and INH2 Default: connected JP2 Current sense output IC1 (IS1) Pos.1: IS1 connected to IS2 (pin 1-2) Pos.2: IS1 and IS2 routed separately (pin 3-4) Default: Pos. 2 1.4 Board ID The NovalithIC H-Bridge Demo Board features a voltage divider formed by the resistors R10 and R11, which can be used to distinguish between different types of demo boards. The input voltage for this divider (pin 24 on the 26 pin header connector) has to be supplied by the controller board or starter kit. The output of the divider (pin 17) can be connected to an analog input of the microcontroller. Based on the measured voltage the controller can then determine which type of board is connected. When choosing the values of R10 and R11 it has to be considered that the voltage divider is drawing current from the controller board supply. Therefore the sum of these resistors should be high in order to minimize this current. By default the board is delivered with R10=open and R11=0. Demo Board Description 4 V1.0, 2011-09-23 NovalithICTM H-Bridge Demo Board Version 2.2 (BTN89xxTA) Schematic 2 Schematic Figure 3 Schematic Demo Board Description 5 V1.0, 2011-09-23 NovalithICTM H-Bridge Demo Board Version 2.2 (BTN89xxTA) Top Layer 3 Top Layer Figure 4 Top layer 4 Bottom Layer Figure 5 Bottom layer Demo Board Description 6 V1.0, 2011-09-23 NovalithICTM H-Bridge Demo Board Version 2.2 (BTN89xxTA) Revision History 5 Revision History NovalithICTM Revision History: V1.0, 2011-09-23 Demo Board Description 7 V1.0, 2011-09-23 Edition 2011-09-23 Published by Infineon Technologies AG 81726 Munich, Germany (c) 2011 Infineon Technologies AG All Rights Reserved. LEGAL DISCLAIMER THE INFORMATION GIVEN IN THIS APPLICATION NOTE IS GIVEN AS A HINT FOR THE IMPLEMENTATION OF THE INFINEON TECHNOLOGIES COMPONENT ONLY AND SHALL NOT BE REGARDED AS ANY DESCRIPTION OR WARRANTY OF A CERTAIN FUNCTIONALITY, CONDITION OR QUALITY OF THE INFINEON TECHNOLOGIES COMPONENT. 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