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Freescale Semiconductor
User Guide
MAC57D5xx Customer Evaluation
Boards
1 Introduction
This user guide details the setup and configuration of the NXP
MAC57D5xx Mother Board (MB) Customer Evaluation
Board (hereafter referred to as the EVB) and its daughter cards
(208 LQFP and 516 BGA).
The EVB is intended to provide a low cost mechanism for
customer evaluation of the MAC57D5xx family of
microcontrollers, and to facilitate hardware and software
development. The EVB is intended for bench / laboratory use
and has been designed using ambient temperature specified
components. Two daughter cards are available which connect
to the EVB via high-density connectors. Please consult your
NXP representative for more details.
This product contains components that may be damaged by
electrostatic discharge. Observe precautions for handling
electrostatic sensitive devices when using this EVB and
associated microcontroller.
2 Device overview
MAC57D5xx Family
The MAC57D5xx family is the next generation platform of
devices specifically targeted to the instrument cluster market
using single and dual high resolution displays.
© 2016 Freescale Semiconductor, Inc.
Document Number: MAC57D5xxUG
Contents
1
Introduction.............................. .............................. 1
2
Device overview MAC57D5xx Family...................1
3
abbreviations........................................................... 2
4
features.................................................. ..................3
5
Initial configuration...................... ...........................4
6
MCU power supply jumpers............ .......................7
7
Reset control and Oscillators................................ 10
8
Debug connectors....................... .......................... 11
9
Communications interfaces............ ...................... 13
10
Graphics display and video interfaces...................15
11
User interface (I/O)............................................... 19
12
Jumper Default Configuration...............................22
Rev. 0, 05/2016
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Table of Contents
Related Manuals for NXP Semiconductors MAC57D5xx Series
Summary of Contents for NXP Semiconductors MAC57D5xx Series
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Page 1: Table Of Contents
Freescale Semiconductor Document Number: MAC57D5xxUG User Guide Rev. 0, 05/2016 MAC57D5xx Customer Evaluation Boards Contents 1 Introduction Introduction............1 Device overview MAC57D5xx Family....1 This user guide details the setup and configuration of the NXP Definitions, acronyms, and MAC57D5xx Mother Board (MB) Customer Evaluation abbreviations............ -
Page 2: Definitions, Acronyms, And Abbreviations
Definitions, acronyms, and abbreviations Leveraging the highly successful MPC56xxS product family, NXP is introducing a multi-core architecture powered by ARM Cortex-M (for real time) and Cortex-A processors (for applications and HMI), coupled with 2D Graphics Accelerators (GPU), Head Up Display (HUD) Warping Engine, Dual TFT display drive, integrated Stepper Motor Drivers and a powerful I/O processor, that will offer leading edge performance and scalability for cost-effective applications. -
Page 3: Mac57D5Mb - Evaluation Board Features
MAC57D5MB – Evaluation Board features Table 1. List of abbreviations (continued) Abbreviations Extension EPROM Erasable Programmable Read Only Memory GPIO General Purpose Input/Output General Purpose Output Inter-Integrated Circuit Input/Output JTAG Joint Test Access Group Local Area Network Liquid Crystal Display Light Emitting Diode Megabyte Microcontroller Unit... -
Page 4: Initial Configuration
Initial configuration • User pushbutton switches • Potentiometer connected to analogue input channel. • VIU Interface • TFT Display interface with Backlight power supply for EastRising - ER-TFT050-3 • 2 Stepper Motors Connectors Figure 2. MAC57D5MB Evaluation Board 5 Initial configuration MAC57D5xx Customer Evaluation Boards, Rev. - Page 5 Initial configuration This section details the power, reset, clocks and debug configuration and is the minimum configuration needed in order to power on MAC57D5MB. 5.1 Main power supply MAC57D5MB requires an external power supply voltage of 12 V, minimum 3 A. This allows the EVB to be easily used in a vehicle if required.
- Page 6 Initial configuration 5.3 Power jumpers of Regulators All of the voltage regulators (switching and linear) are powered from the main 12 V supply line by a jumper with the exception of the 3.3 V and 1.8 V linear regulator which has a two way jumper to allow selection of the input voltage. The table below details the jumper configurations for the linear 1.25 V regulator source voltage.
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Page 7: Mcu Power Supply Jumpers
MCU power supply jumpers When power is applied to the EVB, five green LED’s adjacent to the voltage regulators show the presence of the supply voltages as follows: Table 4. Power status LEDs BOARD REFERENCE DESCRIPTION Indicates that the 12 V is connected to the EVB correctly. Indicates that the 5 V switching regulator is enabled and MAC57D5MB working correctly. - Page 8 MCU power supply jumpers Table 5. MCU power supply jumpers (continued) BOARD REFERENCE POSITION DESCRIPTION LEGEND REMOVED VDDE_B_MCU is not powered (disabled). 1-2 (Default) 3.3 V switching regulator output is routed to VDDE_SDR_MCU (MCU) REMOVED VDDE_SDR_MCU is not powered (disabled). 1-2 (Default) 3.3 V switching regulator output is routed to VDDM_SMD_MCU (MCU)
- Page 9 MCU power supply jumpers There is an additional power supply jumper controlling the I/O voltage for the peripherals on the MAC57D5MB in the PER_HVA voltage domain. The default configuration matches the default configuration with the jumpers set to 3.3 V. Table 6.
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Page 10: Reset Control And Oscillators
Reset control and Oscillators Table 7. Voltage regulators (continued) Regulator Used on VDDE_SDR_MCU VDDM_SMD_MCU VDD_HV_BALLST VDDEH_ADC_MCU CAN Interface 3.3 V Switcher VDDE_A_MCU P3V3_SR VDDE_B_MCU VDDE_SDR_MCU VDDM_SMD_MCU VDD_HV_BALLST Reset LED indicators MLB Interface TFT Display Ethernet Interface User LEDSs (Active Low) User Switches (Active High) VIU Interface LVDS Display... -
Page 11: Debug Connectors
Debug connectors 7.2 Oscillators For daughter cards, there are two external clock crystals: • 40 MHz fast external crystal for clocking the main system clock • 32.768 kHz slow external crystal for accurate time of day keeping. The 32.768 kHz external crystal is permanently connected to the MCU EXTAL32 and XTAL32 pins and has no configuration options. - Page 12 Debug connectors Table 8. JTAG debug connector Pinout (continued) Pin No. Function Connection Pin Number Function Connection NC/DBGRQ NC/DBACK 8.2 ARM ETM 38-PIN The table below showcases the pin arrangement for the ARM ETM 38-pin connector. The recommended connector is the Mictor connector (type 5767054-1 or compatible).
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Page 13: Communications Interfaces
Communications interfaces Table 10. ARM-Cortex debug connector pinout Pin No. Function Connection Pin No. Function Connection PER_HVA JTAG_TMS TCLK JTAG_TCLK JTAG_TDO JTAG_TDI (nSRST) JTAG_RSTx 9 Communications interfaces This section details the communication interface and storage peripherals that are implemented on the EVB. Figure 5. - Page 14 Communications interfaces The MCU CAN Tx/Rx pins are powered from the VDDE_SDR_MCU domain, which is configured between 3.3V and 5.0V using jumper placed in daughter card. The CAN transceiver I/O voltage is connected to the PER_HVA net configured with jumper J29 on the EVB. Care must be taken to ensure that the MCU CAN I/O pins in domain VDDE_SDR_MCU and PER_HVA supply are the same when using the CAN transceiver.
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Page 15: Graphics Display And Video Interfaces
Graphics display and video interfaces Table 14. Ethernet control jumpers Jumper Position PCB Legend Description 1-2 (Default) Ethernet PHY is configured in MII mode Ethernet PHY is configured in RMII mode REMOVED Invalid Configuration, avoid! 1-2 (Default) Ethernet PHY X2 clock is connected to 25 MHz xtal Ethernet PHY X2 clock is not connected to 25 MHz xtal ** 1-2 (Default) Ethernet PHY X1 clock is connected to 25 MHz xtal... - Page 16 Graphics display and video interfaces Table 15. TFT display connector pinout (continued) Pin No. Signal Description MCU Connection LEDK BCKL Pwr supply Pos LDEA BCKL Pwr supply Neg Ground Pwr Supply P3V3_SR Red data VOUT1_D2 Red data VOUT1_D3 Red data VOUT1_D4 Red data VOUT1_D5...
- Page 17 Graphics display and video interfaces 10.2 HDMI MAC57D5MB has an HDMI interface using the SiI9022A/SiI9024A HDMI transmitter routed to the Display Controller (2D- ACE0 - Two Dimensional Animation and Compositing Engine ) of the MAC57D5xx microcontroller . This interface supports the High Definition Multimedia Interface (HDMI) Specification on a wide range of mobile products. High definition camcorders, digital still cameras, and personal mobile devices connect directly to a large installed base of HDMI TVs and DVI PC monitors by using the flexible audio and video interfaces provided by this ultra-low-power solution.
- Page 18 Graphics display and video interfaces Table 16. VIU connector pinout (continued) VIU_DATA_15 VIU Pixel Data Input VIU_DATA_0 VIU Pixel Data Input VIU_DATA_1 VIU Pixel Data Input VIU_DATA_2 VIU Pixel Data Input VIU_DATA_3 VIU Pixel Data Input VIU_DATA_4 VIU Pixel Data Input VIU_DATA_5 VIU Pixel Data Input VIU_DATA_6...
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Page 19: User Interface (I/O)
User interface (I/O) Table 17. LVDS interface (continued) OLDI_P3 Pixel Data OLDI_N0 Pixel Data OLDI_P0 Pixel Data OLDI_N1 Pixel Data OLDI_P1 Pixel Data OLDI_N2 Pixel Data OLDI_P2 Pixel Data OLDI_CLKN Pixel Clock OLDI_CLKP Pixel Clock P5V0_LVDS 3.3 V P5V0_LVDS 3.3 V LVDS_TOUCH_SCL LVDS_TOUCH_SDA LVDS_TOUCH_INT_B... - Page 20 User interface (I/O) Table 18. ARDUINO connectors ARDUINO HEADER FUNCTION BOARD REFERENCE MAC57D5-208DC MAC57D5-516DC +5V0 +5V0 +5V0 RESET RESET RESET +3V3 +3V3 +3V3 +5V0 +5V0 +5V0 +12V +12V +12V JP17 PE10 PE10 PE11 PE11 PE12 PE12 PE13 PE13 PE14 PE14 AREF PER_HVA PER_HVA...
- Page 21 User interface (I/O) All of the available GPIO pins in the daughter cards (those not already used for existing EVB peripherals) are routed at the GPIO matrix. The matrix provides an easy to follow, intuitive, space saving grid of 0.1” header through hole pads. Users can solder wires, fit headers or simply insert a scope probe into the respective pad.
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Page 22: Jumper Default Configuration
Jumper Default Configuration 11.5 ADC input potentiometer There is a rotary variable resistor R293 on the EVB which routes a voltage between 0v and PER_HVA (3.3 V or 5.0 V). This is useful for quick ADC testing. 11.6 Stepper Motor peripheral The chip has one Stepper Motor Controller (SMC) module capable of driving up to six stepper motors for instrument cluster gauges. - Page 23 Jumper Default Configuration Table 19. Jumper Default Configuration (continued) PMIC PMIC - Switching MAC57D5MB Regulators [5 V, 3.3 V and 1.25 V] are powered from VBAT [12V]. PMIC 5.0 V Switching regulator output is routed to all peripherals on the EVB.
- Page 24 Jumper Default Configuration Table 19. Jumper Default Configuration (continued) Step-Up Switching Regulator for TFT Displays is enabled from P5V0 [5.0 V]. PJ2 port is routed to LIN Interface PJ3 port is routed to LIN Interface HDMI 5.0 V Switching Regulator output is routed to the HDMI connector.
- Page 25 Jumper Default Configuration Table 19. Jumper Default Configuration (continued) VREF_DDR2_MCU and VREF_DDR2M are routed to a 0.9 V divider voltage. 12.1 Default Jumper Diagram Figure 10. MAC57D5-208DC - default jumper configuration MAC57D5xx Customer Evaluation Boards, Rev. 0, 05/2016 Freescale Semiconductor, Inc.
- Page 26 Jumper Default Configuration Figure 11. MAC57D5-516DC - default jumper configuration MAC57D5xx Customer Evaluation Boards, Rev. 0, 05/2016 Freescale Semiconductor, Inc.
- Page 27 Jumper Default Configuration Figure 12. MAC57D5MB - default jumper configuration 12.2 Daughtercard information In order to use the EVB, an MCU daughter card must be fitted as described in the figure below. MAC57D5xx Customer Evaluation Boards, Rev. 0, 05/2016 Freescale Semiconductor, Inc.
- Page 28 Jumper Default Configuration NOTE Caution - Before fitting or removing a daughter card, ensure the EVB is not powered. Figure 13. MCU Daughtercard connectors NOTE • Caution - Gently place the daughtercard on the EVB connectors ensuring the correct orientation as per the picture. The connectors are polarized so the daughtercard will only fit in one orientation (with the jumpers at the bottom of the daughtercard).
- Page 29 How to Reach Us: Information in this document is provided solely to enable system and software implementers to use Freescale products. There are no express Home Page: or implied copyright licenses granted hereunder to design or fabricate freescale.com any integrated circuits based on the information in this document. Web Support: Freescale reserves the right to make changes without further notice to any products herein.
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