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MicroSys miriac MPX-S32G399A User Manual

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miriac MPX-S32G399A
User Manual (HW Revision 6)
V6.0

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Summary of Contents for MicroSys miriac MPX-S32G399A

  • Page 1 MPX-S32G399A User Manual (HW Revision 6) V6.0...
  • Page 2 Pin Definitions – Bottom ......73 4.12.1 10.5 4.12.2 JTAG ............36 10.6 Pins not available for pin multiplexing ..80 4.12.3 AURORA ............. 36 4.12.4 ADC ............. 36 miriac MPX-S32G399A User Manual V6.0 2/81 © MicroSys Electronics GmbH 2024...
  • Page 3 Copyright © MicroSys Electronics GmbH 2024 All rights reserved. All rights in any information which appears in this document belong to MicroSys Electronics GmbH or our licensors. You may copy the information in this manual for your personal, non-commercial use.
  • Page 4 This offer is valid to anyone in receipt of this information. MicroSys Electronics GmbH is eager to duly provide complete source code as required under various Free Open-Source Software licenses. If however you...
  • Page 5 / xxx_P denotes the positive signal of a differential pair denotes an optional not mounted or fitted part Table 2 Conventions miriac MPX-S32G399A User Manual V6.0 5/81 © MicroSys Electronics GmbH 2024...
  • Page 6 There is no separate SHIELD connection. The module’s mounting holes are not connected to GND Take this into account when handling and mounting the unit. Table 3 Safety and Handling Precautions miriac MPX-S32G399A User Manual V6.0 6/81 © MicroSys Electronics GmbH 2024...
  • Page 7 Short Description The miriac MPX-S32G399A is a member of the MPX module family based on NXP’s S32G399A network processor (SoC). MicroSys Electronics GmbH offers a Development Kit which uses the key features of the module. The customer can: ■ …test the operation of the MPX-S32G399A module ■...
  • Page 8 Voltage regulators for onboard voltages ■ Supervisor MCU monitoring temperatures and supplies Ordering Information Ordering information can be found on the following website miriac MPX-S32G399A or contact your local sales representative. miriac MPX-S32G399A User Manual V6.0 8/81 © MicroSys Electronics GmbH 2024...
  • Page 9 In chapter 3.4 the typical power consumption of the MPX-S32G399A module was specified. With this information a cooling method needs to be designed which considers the final use case. If desired, MicroSys Electronics GmbH can support you with your cooling concept. Please ask your sales representative or send an email inquiry to support@microsys.de.
  • Page 10  SD_D2  SD_D3  VCC_SDHC_1V8/3V3  PMIC_FCCU1_OUT   RGMII2_MDC/DSPI0_CS7   RGMII2_MDIO   RGMII2_RXD3/USB_D7   RGMII2_RXD2/USB_D6   RGMII2_RXD1/USB_D5   RGMII2_RXD0/USB_D4   RGMII2_RXDV/USB_D3 miriac MPX-S32G399A User Manual V6.0 10/81 © MicroSys Electronics GmbH 2024...
  • Page 11  RGMII1_TXD1   RGMII1_TXD0   RGMII1_TX_EN   RGMII1_TX_CLK   RGMII0_MDC   RGMII0_MDIO   RGMII0_RXD3   RGMII0_RXD2   RGMII0_RXD1   RGMII0_RXD0 miriac MPX-S32G399A User Manual V6.0 11/81 © MicroSys Electronics GmbH 2024...
  • Page 12 RGMII0_TXD2   RGMII0_TXD1   RGMII0_TXD0   RGMII0_TX_EN   RGMII0_TX_CLK PCIE1_RX0_N PCIE1_RX0_P PCIE1_RX1_N PCIE1_RX1_P PCIE0_RX0_N PCIE0_RX0_P PCIE0_RX1_N PCIE0_RX1_P MCU_SWD_CLK/KILL MCU_SWD_DIO/SAFEIO PCIE1_TX0_N PCIE1_TX0_P PCIE1_TX1_N PCIE1_TX1_P PCIE0_TX0_N PCIE0_TX0_P miriac MPX-S32G399A User Manual V6.0 12/81 © MicroSys Electronics GmbH 2024...
  • Page 13  T114 PB15   T115 PC00 T116 T117 +VREF1 T118 +VREF2 T119 +VREF3 T120 +VREF4 T121 T122 PCIE0_CLKIN_N T123 PCIE0_CLKIN_P T124 T125 T126 PMIC_RST# T127 RSTIN# T128 RST# miriac MPX-S32G399A User Manual V6.0 13/81 © MicroSys Electronics GmbH 2024...
  • Page 14 T141 T142 T143 T144 T145 T146 +VIN T147 +VIN T148 +VIN T149 +VIN T150 +VIN T151 +VIN T152 +VIN T153 +VIN T154 +VIN Table 5 Module connector: top pins miriac MPX-S32G399A User Manual V6.0 14/81 © MicroSys Electronics GmbH 2024...
  • Page 15 ADC_CH_01 ADC_CH_00  CAN00_RX (INPUT)  CAN00_TX  CAN01_RX (INPUT)  CAN01_TX  CAN02_RX (INPUT)  CAN02_TX  CAN03_RX (INPUT)  CAN03_TX   CAN04_RX (INPUT)   CAN04_TX miriac MPX-S32G399A User Manual V6.0 15/81 © MicroSys Electronics GmbH 2024...
  • Page 16  CAN12_TX   CAN13_RX (INPUT)   CAN13_TX   CAN14_RX (INPUT)   CAN14_TX   CAN15_RX (INPUT)   CAN15_TX   PA15_DSPI0_SOUT   PA13_DSPI0_SCK miriac MPX-S32G399A User Manual V6.0 16/81 © MicroSys Electronics GmbH 2024...
  • Page 17   FLXR0A_TXEN#   FLXR0B_RX_D   FLXR0B_TX_D   FLXR0B_TXEN#   PB12_FXCAN2_RX   B100 PB11_FXCAN2_TX B101   B102 PB14_FXCAN3_RX   B103 PB13_FXCAN3_TX B104 miriac MPX-S32G399A User Manual V6.0 17/81 © MicroSys Electronics GmbH 2024...
  • Page 18 B131 PC10_UART0_RX B132   B133 PB01_I2C0_SCL   B134 PB00_I2C0_SDA   B135 PB03_I2C1_SCL   B136 PB04_I2C1_SDA   B137 PB05_I2C2_SCL   B138 PB06_I2C2_SDA B139 B140 miriac MPX-S32G399A User Manual V6.0 18/81 © MicroSys Electronics GmbH 2024...
  • Page 19 B143 B144 B145 B146 B147 B148 +VIN B149 +VIN B150 +VIN B151 +VIN B152 +VIN B153 +VIN B154 +VIN B155 +VIN B156 +VIN Table 6 Module connector: bottom pins miriac MPX-S32G399A User Manual V6.0 19/81 © MicroSys Electronics GmbH 2024...
  • Page 20 Optional voltage for PMIC debug mode. typ. 7.5V May be left open if debugging is not re- B125 VDD_OTP see PMIC quired. Power sequence can be found in datasheet PMIC datasheet. miriac MPX-S32G399A User Manual V6.0 20/81 © MicroSys Electronics GmbH 2024...
  • Page 21 The diode-ORing in Figure 4-2 is a simplified representation of the actual implementation, where +3V3_MCU (generated from input supply) takes precedence over +3V3_EXT. miriac MPX-S32G399A User Manual V6.0 21/81 © MicroSys Electronics GmbH 2024...
  • Page 22 System Global Reset / JTAG Open Drain PMIC_RST# System Global Reset Open Drain PORST# Power-On Reset for SoC DDR_RST# Reset for LPDDR Memory EMMC_RST# Reset for eMMC Memory Table 4-3 Reset signal overview miriac MPX-S32G399A User Manual V6.0 22/81 © MicroSys Electronics GmbH 2024...
  • Page 23 Signal Signal Signal I/O Range Frequency conditioning SR: 33R → CLK0+ AB15 PCIE0_CLK_P HCSL 100/125 MHz PD: 49R9 SR: 33R → CLK0- AC15 PCIE0_CLK_N HCSL 100/125 MHz PD: 49R9 miriac MPX-S32G399A User Manual V6.0 23/81 © MicroSys Electronics GmbH 2024...
  • Page 24 SR: 33R → CLK1+ AB16 PCIE1_CLK_P HCSL 100/125 MHz PD: 49R9 SR: 33R → CLK1- AC16 PCIE1_CLK_N HCSL 100/125 MHz PD: 49R9 Table 10 PCIE1 clock: pin assignments miriac MPX-S32G399A User Manual V6.0 24/81 © MicroSys Electronics GmbH 2024...
  • Page 25 RGMII2_TX_ → +VREF2 SR: 10R 125 MHz RGMII2_RX_ RGMII2_RX_ ← +VREF2 SR: 10R 125 MHz → RGMII2_MDC RGMII2_MDC +VREF2 SR: 10R < 10 MHz Table 11 Clock: pin assignments miriac MPX-S32G399A User Manual V6.0 25/81 © MicroSys Electronics GmbH 2024...
  • Page 26 BOOT_CFG1[7:5] configures the boot devices: Boot BOOT_CFG1[7:5] Boot Source Description Location Quad/Hyper/Octal Flash QuadSPI Boot Module (see BOOT_CFG[4:2]) SD Card SD Boot Carrier eMMC eMMC Boot Module Table 14 Boot devices miriac MPX-S32G399A User Manual V6.0 26/81 © MicroSys Electronics GmbH 2024...
  • Page 27 Reset is inactive User defined function (S32G, GPIO “PC_13” on ball Y7) LED ON: Yellow User defined function (S32G, GPIO “PC_13” on ball Y7) LED OFF: Table 15 LED: pin description miriac MPX-S32G399A User Manual V6.0 27/81 © MicroSys Electronics GmbH 2024...
  • Page 28 Use “Level Switching Mode” instead. The RTC’s interrupt output is connected to the CPU: RV-3028-C7 Ball Signal Signal Signal Range conditioning ← RTC_IRQA# INT# +VREF3 PU: 4k7 Table 17 RTC: IRQ miriac MPX-S32G399A User Manual V6.0 28/81 © MicroSys Electronics GmbH 2024...
  • Page 29 The temperature sensor provides an interrupt which is connected to the microcon- troller. GPIO Expander TMP112 Signal Signal I/O Range Signal conditioning ← THERM_ALERT2# ALERT VMCU MCU internal Table 19 Temperature sensor: IRQ2 miriac MPX-S32G399A User Manual V6.0 29/81 © MicroSys Electronics GmbH 2024...
  • Page 30 S32G CPUs support fuse programming which requires an additional voltage “VDD_EFUSE” (1.8V typ.). This voltage can be toggled on/off by GPIO “PD_11” on ball Y10 of the S32G. Figure 4-6 Fuse Programming miriac MPX-S32G399A User Manual V6.0 30/81 © MicroSys Electronics GmbH 2024...
  • Page 31 EEPROM, MCU respectively. See chapter 4.11 for details. The boot source for RCW boot is determined by the configuration in any EEPROM. RCW_SEL# selects which configuration is finally loaded. miriac MPX-S32G399A User Manual V6.0 31/81 © MicroSys Electronics GmbH 2024...
  • Page 32 7 should be cleared. This value should be written into the WDT-Challenge register. The MCU increases this value by one, sets bit 7 and writes this new value into the WDT-Response register. miriac MPX-S32G399A User Manual V6.0 32/81...
  • Page 33 0x04 w i2cget -f -y 0 0x10 0x04 w set 0x06 value i2cset -f -y 0 0x10 0x06 0x81 WDT-Challenge get 0x06 i2cget -f -y 0 0x10 0x06 miriac MPX-S32G399A User Manual V6.0 33/81 © MicroSys Electronics GmbH 2024...
  • Page 34 PCIE0_CLKC_P/N = 125 MHz (ST1: B120 / B121) Bootmode Pin 2 ( J1: W11) = 1 PA03_BOOTMOD2 Bootmode Pin 2 (J1: W11) = 0 PA02_BOOTMOD1 W10) = 1 Bootmode Pin 1 (J1: miriac MPX-S32G399A User Manual V6.0 34/81 © MicroSys Electronics GmbH 2024...
  • Page 35 The alarm output of the two temperature sensors is connected to the MCU. If any sensor detects an overtemperature, the module turns into safe state. The alarm temperature can be programmed into the two sensors. See datasheet of these devices for more details. miriac MPX-S32G399A User Manual V6.0 35/81 © MicroSys Electronics GmbH 2024...
  • Page 36 4.12.1 The terms “primary”, “secondary”, … do not imply any priority. The connector’s pin names are derived from the primary functions defined by MicroSys. Primary interfaces can also be configured for other interfaces. Nevertheless, high speed interfaces are optimized in layout, signals are length and often group matched.
  • Page 37 USB_D6 RGMII2_RXD1 USB_D5 RGMII2_RXD0 USB_D4 RGMII2_RXDV USB_D3 RGMII2_RX_CLK USB_D2 RGMII2_TXD3 USB_D1 RGMII2_TXD2 USB_D0 RGMII2_TXD1 USB_NXT RGMII2_TXD0 USB_STP RGMII2_TX_EN USB_DIR RGMII2_TX_CLK USB_CLK Table 25 RGMII2 / ULPI pin multiplexing options miriac MPX-S32G399A User Manual V6.0 37/81 © MicroSys Electronics GmbH 2024...
  • Page 38 (General Call reset 0x00 address) EEPROM AT24C01C 0x50 RV-3028-C7 0x52 M24C64-DRMF3 0x54 (slave address) EEPROM M24C64-DRMF3 0x5C (identification page) EEPROM AT24C01C 0x56 Multiplexer PCA9540 0x70 Table 26 I2C0: bus map miriac MPX-S32G399A User Manual V6.0 38/81 © MicroSys Electronics GmbH 2024...
  • Page 39 I2C 3 is available by multiplexing functions. Primary interface is FlexCAN3. I2C4 map: Device Addr PMIC VR5510 Main logic 0x20 PMIC VR5510 Fail-safe logic 0x21 PMIC PF5300 debug mode 0x28 Table 29 I2C4: bus map miriac MPX-S32G399A User Manual V6.0 39/81 © MicroSys Electronics GmbH 2024...
  • Page 40 1.8V ↔ QSPI1_A_DATA3 1.8V ↔ QSPI1_A_DATA4 1.8V ↔ QSPI1_A_DATA5 1.8V ↔ QSPI1_A_DATA6 1.8V ↔ QSPI1_A_DATA7 1.8V B4, E4, D1 +1.8V PU 1.8V Table 30 QSPI NOR Flash: pin assignments miriac MPX-S32G399A User Manual V6.0 40/81 © MicroSys Electronics GmbH 2024...
  • Page 41 RGMII2_RX CLK/USB_D2 PK_11 LIN2_TX LINFlex_2 +VREF3 CAN14_TX Table 31 UART multiplexing options For example: Additional UARTs could be multiplexed to PC_04 & PC_08 (LINFlex_1) and PB_11 & PB12 (LINFlex_2), respectively. miriac MPX-S32G399A User Manual V6.0 41/81 © MicroSys Electronics GmbH 2024...
  • Page 42 The MPX-S32G399A has 1 LLCE FlexRay interface with dual channels as primary interface and another shared FlexRay interface due to pin multiplexing. The pins are listed in the Appendix in chapter 10.4 and 10.5. miriac MPX-S32G399A User Manual V6.0 42/81...
  • Page 43 “VCC_SDHC_1V8/3V3“ is a reference voltage which indicates the level of the sup- ply voltage of the SDHC interface: Module Connector Ball Signal Signal I/O Range Signal conditioning VCC_SDHC_1V8/ VCC_SDHC_1V8/ → 1.8V / 3.3V miriac MPX-S32G399A User Manual V6.0 43/81 © MicroSys Electronics GmbH 2024...
  • Page 44 (“PCIE0”) receives its clock pair from the carrier. To control the multiplexer on the module, “SEL_CLK_RC/EP#” needs to be driven low. However, root complex (RC) or endpoint (EP) mode is determined via software. miriac MPX-S32G399A User Manual V6.0 44/81 © MicroSys Electronics GmbH 2024...
  • Page 45 S32G399A is endpoint (clock from carrier) T130 SEL_CLK_RC/EP# PU: 10k S32G399A is root complex (clock from module) Table 35 SerDes: root complex / endpoint Figure 4-8 SerDes: clock routing miriac MPX-S32G399A User Manual V6.0 45/81 © MicroSys Electronics GmbH 2024...
  • Page 46 SerDes modes. NXP provides tables for “SerDes_0 working modes” and “SerDes_1 working modes” in the reference manual of the respective CPU. miriac MPX-S32G399A User Manual V6.0 46/81 © MicroSys Electronics GmbH 2024...
  • Page 47 Edge Connector The MPX-S32G399A module has 314 edge finger contacts. Appropriate sockets on the carrier provide 314 pins with 0.5mm pitch and accept edge cards with a thickness of 1.2mm. miriac MPX-S32G399A User Manual V6.0 47/81 © MicroSys Electronics GmbH 2024...
  • Page 48 OBSOLETE. 314-pin connectors have pins between B9/B10 and T9/T10 which are now connected on the module! They are called “top key” and “bottom key” pins TK1, TK2, BK1, BK2. miriac MPX-S32G399A User Manual V6.0 48/81 © MicroSys Electronics GmbH 2024...
  • Page 49 “B1”, … ”B9”, ”BK1“, ”BK2“, ”B10“, … ”B155”, “B156” Bottom “T1”, … ”T9”, ”TK1“, ”TK2“, ”T10“, … “T153”, “T154“ Table 36 Connector pin naming scheme Figure 5-2 Connector orientation miriac MPX-S32G399A User Manual V6.0 49/81 © MicroSys Electronics GmbH 2024...
  • Page 50 The module connector is usually used for MXM3 graphic cards commonly found in notebooks. MicroSys changed the pin layout so that all 314 physically available pins can be used. Alternatives - there are several connectors on the market that can be used if there are no conflicts with the mechanical dimensions of the module.
  • Page 51 Lift the module to about 25° and remove it from the connector. Store the parts on a static free area. miriac MPX-S32G399A User Manual V6.0 51/81...
  • Page 52 The following drawing shows the mechanical outline (82x50mm) of the MPX-S32G399A module: Figure 5-4 Board dimensions The mounting holes require M2.5 screws. For 3D data files please contact MicroSys. miriac MPX-S32G399A User Manual V6.0 52/81 © MicroSys Electronics GmbH 2024...
  • Page 53 Depends on connector type DIM. E Connector product height Depends on connector type Table 38 Construction height overview Thickness The PCB thickness of the MPX-S32G399A module is 1.2mm ± 10%. miriac MPX-S32G399A User Manual V6.0 53/81 © MicroSys Electronics GmbH 2024...
  • Page 54 Component Layout - Top Side Figure 5-6 Top Components miriac MPX-S32G399A User Manual V6.0 54/81 © MicroSys Electronics GmbH 2024...
  • Page 55 Regulator, power management LPDDR4 Memory eMMC Memory M24C64 EEPROM Serial NOR Flash Memory Secondary Serial RCON EEPROM TMP112 Temperature sensor MCP9802 Temperature Sensor PF53 Regulator Table 39 Top side components miriac MPX-S32G399A User Manual V6.0 55/81 © MicroSys Electronics GmbH 2024...
  • Page 56 Component Layout – Bottom Side 5.10 Figure 5-7 Bottom components miriac MPX-S32G399A User Manual V6.0 56/81 © MicroSys Electronics GmbH 2024...
  • Page 57 PI6C557 Clock Generator PI6C557 Clock Generator RV-3028-C7 Primary Serial RCON EEPROM S32K1 Microcontroller LD1, LD2, LD3, LD4 Side Looker LED Reset, Power, User LED Table 40 Components on bottom miriac MPX-S32G399A User Manual V6.0 57/81 © MicroSys Electronics GmbH 2024...
  • Page 58 U-Boot is pre-programmed in the boards QSPI Flash memory. Additionally, there is a U-Boot version available for the SD card if that interface is implemented on the carrier. The standard MicroSys carrier (CRX-S32G) has an SD card interface. Basically, the bootloader carries out the following tasks: ■...
  • Page 59 The MPX-S32G399A is designed to withstand a high level of vibration and shock since there are no heavy and no overhanging components on the module. If desired, MicroSys Electronics GmbH can support you with your shock and vibration concept. Please ask your sales representative or send an email inquiry to support@microsys.de.
  • Page 60 All components on the MPX-S32G399A are RoHS compliant, also a RoHS compliant soldering process is used for manufacturing. Storage Temperature The storage temperature of the module is -55°C - +100°C. miriac MPX-S32G399A User Manual V6.0 60/81 © MicroSys Electronics GmbH 2024...
  • Page 61 The manufacturer’s advice should be followed. If desired, MicroSys Electronics GmbH can support you with your lifecycle management regarding chip errata. Please ask your sales representative or send an email inquiry to support@microsys.de.
  • Page 62 History Date Version Change Description 2024-09-27 First Version Revision 6 for MPX-S32G399A 2024-10-28 Changed Figure 4-7 Table 41 Document history miriac MPX-S32G399A User Manual V6.0 62/81 © MicroSys Electronics GmbH 2024...
  • Page 63 SDHC ................... Secure Digital Host Controller SerDes ..................... Serializer Deserializer SPI ....................Serial Peripheral Interface UART ............Universal Asynchronous Receiver Transmitter ULPI .................... UTMI+ Low Pin Interface USB ..................... Universal Serial Bus miriac MPX-S32G399A User Manual V6.0 63/81 © MicroSys Electronics GmbH 2024...
  • Page 64 Figure 5-3 Module (un)mounting ..................51 Figure 5-4 Board dimensions ....................52 Figure 5-5 Construction height for parts ................53 Figure 5-6 Top Components ....................54 Figure 5-7 Bottom components .................... 56 miriac MPX-S32G399A User Manual V6.0 64/81 © MicroSys Electronics GmbH 2024...
  • Page 65 Table 39 Connector Types: Ordering Information ..............50 Table 40 Construction height overview ................53 Table 41 Top side components .................... 55 Table 42 Components on bottom ..................57 Table 43 Document history ....................62 miriac MPX-S32G399A User Manual V6.0 65/81 © MicroSys Electronics GmbH 2024...
  • Page 66 PH00 RGMII / ULPI IN / INOUT +VREF1 (1V8) PL14_RGMII2_RXD2/USB_D6 PL14 RGMII / ULPI IN / INOUT +VREF1 (1V8) PL13_RGMII2_RXD1/USB_D5 PL13 RGMII / ULPI IN / INOUT +VREF1 (1V8) miriac MPX-S32G399A User Manual V6.0 66/81 © MicroSys Electronics GmbH 2024...
  • Page 67 PE10 RGMII +VREF1 (1V8) PE09_RGMII1_RXDV PE09 RGMII +VREF1 (1V8) PE08_RGMII1_RX_CLK PE08 RGMII +VREF1 (1V8) PE07_RGMII1_TXD3 PE07 RGMII +VREF1 (1V8) PE06_RGMII1_TXD2 PE06 RGMII +VREF1 (1V8) PE05_RGMII1_TXD1 PE05 RGMII +VREF1 (1V8) miriac MPX-S32G399A User Manual V6.0 67/81 © MicroSys Electronics GmbH 2024...
  • Page 68 PH01 RGMII +VREF1 (1V8) PJ00_RGMII0_TXD0 PJ00 RGMII +VREF1 (1V8) PE14_RGMII0_TX_EN PE14 RGMII +VREF1 (1V8) PH10_RGMII0_TX_CLK PH10 RGMII +VREF1 (1V8) PCIE1_RX0_N AB22 SERDES +VREF1 (1V8) PCIE1_RX0_P AA22 SERDES +VREF1 (1V8) miriac MPX-S32G399A User Manual V6.0 68/81 © MicroSys Electronics GmbH 2024...
  • Page 69 SERDES +VREF1 (1V8) 220nF PCIE0_TX0_P SERDES +VREF1 (1V8) 220nF PCIE0_TX1_N SERDES +VREF1 (1V8) 220nF PCIE0_TX1_P SERDES +VREF1 (1V8) 220nF AUR_CLK_N AB11 AURORA +VREF1 (1V8) AUR_CLK_P AC11 AURORA +VREF1 (1V8) miriac MPX-S32G399A User Manual V6.0 69/81 © MicroSys Electronics GmbH 2024...
  • Page 70 1V8 Reference Output T118 +VREF2 POWER 1V8 Reference Output T119 +VREF3 POWER 3V3 Reference Output T120 +VREF4 POWER 3V3 Reference Output T121 GND T122 PCIE0_CLKIN_N AC15 SERDES +VREF1 (1V8) miriac MPX-S32G399A User Manual V6.0 70/81 © MicroSys Electronics GmbH 2024...
  • Page 71 PRODUCTION +3V3_EXT / _INT T136 I2C_SDA_PROG PRODUCTION INOUT +3V3_EXT / _INT T137 GND T138 GND T139 GND T140 GND T141 GND T142 GND T143 GND T144 GND T145 GND miriac MPX-S32G399A User Manual V6.0 71/81 © MicroSys Electronics GmbH 2024...
  • Page 72 6-36V T148 +VIN POWER 6-36V T149 +VIN POWER 6-36V T150 +VIN POWER 6-36V T151 +VIN POWER 6-36V T152 +VIN POWER 6-36V T153 +VIN POWER 6-36V T154 +VIN POWER 6-36V miriac MPX-S32G399A User Manual V6.0 72/81 © MicroSys Electronics GmbH 2024...
  • Page 73 ADC_CH_06 +VREF1 (1V8) PMIC_STBY# CTRL +VREF4 (3V3) PMIC_STBY_PGOOD CTRL +VREF4 (3V3) ADC_CH_05 +VREF1 (1V8) ADC_CH_04 +VREF1 (1V8) ADC_CH_03 +VREF1 (1V8) ADC_CH_02 +VREF1 (1V8) ADC_CH_01 +VREF1 (1V8) ADC_CH_00 +VREF1 (1V8) miriac MPX-S32G399A User Manual V6.0 73/81 © MicroSys Electronics GmbH 2024...
  • Page 74 PJ08 +VREF3 (3V3) PJ07_CAN04_TX PJ07 PJ10_CAN05_RX +VREF4 (3V3) PJ10 PJ09_CAN05_TX +VREF3 (3V3) PJ09 PJ12_CAN06_RX +VREF4 (3V3) PJ12 PJ11_CAN06_TX +VREF3 (3V3) PJ11 +VREF4 (3V3) PJ14_CAN07_RX PJ14 PJ13_CAN07_TX +VREF3 (3V3) PJ13 miriac MPX-S32G399A User Manual V6.0 74/81 © MicroSys Electronics GmbH 2024...
  • Page 75 PK07 PK10_CAN13_RX +VREF4 (3V3) PK10 PK09_CAN13_TX +VREF3 (3V3) PK09 +VREF4 (3V3) PK12_CAN14_RX PK12 PK11_CAN14_TX +VREF3 (3V3) PK11 +VREF4 (3V3) PK14_CAN15_RX PK14 PK13_CAN15_TX +VREF3 (3V3) PK13 PA15_DSPI0_SOUT +VREF3 (3V3) PA15 miriac MPX-S32G399A User Manual V6.0 75/81 © MicroSys Electronics GmbH 2024...
  • Page 76 +VREF3 (3V3) PA05_JTAG_TMS PA05 JTAG JCOMP +VREF3 (3V3) JTAG PF03_CLKOUT0 +VREF1 (1V8) PF03 CLOCK +VREF1 (1V8) PF04_CLKOUT1 PF04 CLOCK PL03_FLXR0A_RX_D +VREF4 (3V3) PL03 FLEXRAY PL02_FLXR0A_TX_D +VREF3 (3V3) PL02 FLEXRAY miriac MPX-S32G399A User Manual V6.0 76/81 © MicroSys Electronics GmbH 2024...
  • Page 77 B110 PC06_LIN2_RX +VREF4 (3V3) B111 PC06 PC05_LIN2_TX +VREF3 (3V3) B112 PC05 B113 PL07_LIN3_RX +VREF4 (3V3) B114 PL07 +VREF3 (3V3) B115 PC07_LIN3_TX PC07 B116 PCIE1_CLKC_N SERDES +VREF4 (3V3) 49R9 B117 miriac MPX-S32G399A User Manual V6.0 77/81 © MicroSys Electronics GmbH 2024...
  • Page 78 +VREF3 (3V3) B134 PB00 INOUT +VREF3 (3V3) B135 PB03_I2C1_SCL PB03 +VREF3 (3V3) B136 PB04_I2C1_SDA PB04 INOUT +VREF3 (3V3) B137 PB05_I2C2_SCL PB05 +VREF3 (3V3) B138 PB06_I2C2_SDA PB06 INOUT B139 B140 miriac MPX-S32G399A User Manual V6.0 78/81 © MicroSys Electronics GmbH 2024...
  • Page 79 +VIN Power 6-36V B150 +VIN Power 6-36V B151 +VIN Power 6-36V B152 +VIN B153 +VIN Power 6-36V Power 6-36V B154 +VIN +VIN Power 6-36V B155 +VIN Power 6-36V B156 miriac MPX-S32G399A User Manual V6.0 79/81 © MicroSys Electronics GmbH 2024...
  • Page 80 SDC / eMMC PD09 SDC / eMMC PD10 SDC / eMMC PG00 QSPI PG01 QSPI PG02 QSPI PG03 QSPI PG04 QSPI PG05 QSPI PF05 QSPI PF06 QSPI PF07 QSPI miriac MPX-S32G399A User Manual V6.0 80/81 © MicroSys Electronics GmbH 2024...
  • Page 81 QSPI PF12 QSPI PF13 QSPI PF14 QSPI PA02 PA02_BOOTMOD1 CONFIG PA03 PA03_BOOTMOD2 CONFIG PB00 PB00_I2C0_SDA PB01 PB01_I2C0_SCL PC01 PC01_I2C4_SDA_PMIC PC02 PC02_I2C4_SCL_PMIC PC03 PMIC_IRQ# CONFIG PC13 PC13 PD11 PMIC_FS0# CONFIG miriac MPX-S32G399A User Manual V6.0 81/81 © MicroSys Electronics GmbH 2024...