• Before the S32M27xEVB-L064 Evaluation board is used or power is applied, please fully read this user manual. An incorrect configuration in the board may cause a irreparable damage on the component, MCU or EVB. Power must be removed from the EVB prior to:...
5. S32M27xEVB-L064 – Default Configuration Table 1. S32M27xEVB-L064 - Default Configuration Reference / Default Interface Description/Comment Signal Configuration S32M276L_64LQFP S32M276 PTC2 PTC2/LPUART0_RX is routed to NTS0102GD terminal B1 for serial interface to MK26FN2M0VMI18 OnBoard PTC3 PTC3/LPUART0_TX is routed to NTS0102GD terminal B2 for serial interface to...
Table 2. S32M27xEVB-L064 - Default jumpers position. Interface Reference Position Description / Comments VBAT is routed to VSUP VSUP is routed to VSUP_PERH Power Supply VSUP_MCU is routed to VSUP input of MCU Power LEDs to ground connection VDD_MCU is connected to the VDD_MCU_PERH to supply SW peripherals (leds, buttons, user_adc) and...
Table 3. S32M27xEVB-L064 - Main power supply connector Connector Description 2.1mm Barrel Connector – J4 Ground This connector should be used to connect the supplied wall-plug main adapter. Note if a replacement or alternative adapter is used, care must be taken to ensure the 2.1mm plug uses the correct polarization as shown.
7.2 S32M27xEVB-L064 – VPRE VPRE_MCU is typical 6V and generated from the VSUP_MCU. It can be either generated with an external power FET (gate controlled via GCTL pin) or generated by a PMC internal regulator. VPRE is always powered (FPM and LPM). An external bypass capacitor in the range from 2.2uF to 4.7uF is required.
9. S32M27xEVB-L064 – Programming and Debug Interface 9.1 S32M27xEVB-L064 – RESET switch and led indicator The RESET switch [SW1] provides an input signal for manual application RESET. The S32M2 MCU will drive the RESET signal to the reset pins in the EVB [PTA5 and RESET]. The RESET LED indicator [D10] will be ON for the duration of the RESET signal.
9.2 S32M27xEVB-L064 – On-board Debugger The EVB incorporates an On-Board Debugger as well as embedded JTAG connectors. It bridges serial and debug communications between an USB host and an embedded target processor. Figure 10. S32M27xEVB-L064– On-board Debugger 10-pin Cortex Debug connector...
Figure 13. S32M27xEVB-L064– CAN PHY S32M27xEVB-L064 – LIN PHY The S32M27xEVB-L064 incorporates internally a LIN interface but is necessary connect the required circuitry to configure it as MASTER or SLAVE , the output signal is connected to J50 and J54.
USER_LED1 BC847B R163 Figure 17. S32M27xEVB-L064– User led indicator 12.2 S32M27xEVB-L064 – User Push buttons There are 2 push-buttons active high (pulled low, driven to VDD_MCU_PERH), the push button switches (SW2 and SW3) connected to MCU ports. The switches are connected as follows: Table 11.
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Figure 18. S32M27xEVB-L064– User Push buttons VDD_MCU_PERH 1825967-2 TP171 TP170 T PAD_040 T PAD_040 SILK = USER_SW 0 R198 USER_SW0 page[4] R157 0.22UF 0.22UF 0402 0402 VDD_MCU_PERH 1825967-2 TP173 TP172 T PAD_040 T PAD_040 SILK = USER_SW 1 R160 USER_SW1...
12.3 S32M27xEVB-L064 – ADC Rotary Potentiometer The EVB incorporates an ADC Rotary Potentiometer (which routes a voltage between 0v to VDD_MCU_PERH) directly connected to ADC Input Channel of the S32M27 Microcontroller, specifically ADC1_P611. Table 12. User ADC Potentiometer Reference Function...
NXP Semiconductors. appropriate design and operating safeguards to minimize the risks Right to make changes — NXP Semiconductors reserves the right associated with their applications and products. to make changes to information published in this document, including without limitation specifications and product descriptions, at any time and without notice.
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